Explore a full range of industrial automation products from major brands like ABB, Bently, Honeywell, GE, and more. IndustriaX Limited helps manufacturers source rare and hard-to-find components worldwide with fast delivery to minimize downtime.
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Yokogawa Yokogawa CP461-11 Processor Module | High-Performance Industrial CPU
Product Description OverviewThe Yokogawa CP461-11 is a robust processor module engineered for high-reliability industrial control applications. Designed with performance and efficiency in mind, it delivers precise processing capabilities suitable for advanced automation systems. Technical Specifications Processor CPU: Texas Instruments TMS320F2812 DSP Core Clock Speed: 400 MHz Memory On-Chip SRAM: 128 KB External SRAM: 1 MB Input/Output Interfaces Serial Ports: 2 Parallel Port: 1 Power and Electrical Typical Power Consumption: 100 mW Operating Voltage: 3.3 V (typical for LQFP packages) Physical Characteristics Package Type: 48-pin LQFP (Low-Profile Quad Flat Package) Dimensions: Standard 48-pin LQFP footprint Applications Real-time process control in industrial automation Data acquisition and signal processing tasks Integration into embedded industrial systems Similar Models Comparison CP461-12 offers extended memory options and higher I/O count for complex applications CP461-10 is optimized for lower power usage with slightly reduced clock speed FAQ Q: Is the CP461-11 compatible with existing Yokogawa control systems?A: Yes, it integrates seamlessly with other modules in the Yokogawa CP series. Q: Can the module operate in harsh industrial environments?A: The module is designed for standard industrial temperature ranges and can be adapted with additional cooling for extreme conditions.
$200.00 $100.00
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Yokogawa Yokogawa SCP461-51 Processor Module | CENTUM VP Control Component
Product Description The SCP461-51 processor module is the central computing unit for Yokogawa's CENTUM VP series of distributed control systems (DCS). Engineered for high-reliability in mission-critical industrial automation, it delivers deterministic real-time control and seamless system integration. Core Technical Specifications Processor Core: Incorporates a 32-bit single-core ARM Cortex-A57 CPU, clocked at 1.5 GHz, specifically tuned for real-time operating system (RTOS) tasks and complex control algorithms. Operating Systems: Offers multi-OS support for deployment flexibility, including VxWorks (for hard real-time performance), specific embedded Windows versions, and Linux distributions, as validated by Yokogawa. High Availability: Supports 1:1 hot standby redundancy configuration. Automatic failover is achieved within 100 milliseconds to maintain continuous process control without interruption, essential for sectors like power generation and petrochemicals. Electrical Characteristics: Powered by a 24 VDC supply (range: 20.4 to 26.4 VDC). Nominal power dissipation is 12 watts. Module configuration data is retained via non-volatile memory; sustained operation during outages depends on external plant UPS systems. Environmental Ratings Operational Temperature: -20°C to +70°C (Extended range of -40°C to +70°C available with /G3 option). Storage Temperature: -30°C to +85°C. Relative Humidity: 5% to 95% (non-condensing). Vibration Resistance: Withstands continuous vibration of 2.0 m/s² (14 Hz to 100 Hz). Robustness Features: Designed for harsh environments; supports optional surge-absorbing terminal blocks (e.g., Yokogawa model ATD5S-10) for protection against voltage transients. Application Scenarios This module is designed for critical control applications requiring maximum uptime and deterministic response. Typical installations include: Energy: Supervisory control in nuclear and thermal power plants. Oil & Gas: Safety instrumented systems (SIS) and burner management. Chemicals: Batch process control in pharmaceutical and fine chemical production. Infrastructure: Primary control loops in large-scale water treatment and distribution networks. Frequently Asked Questions (FAQ) Q: What is the main advantage of the redundant configuration for the SCP461-51? A: Redundancy eliminates a single point of failure. If the primary processor module fails, the standby unit takes over control within 100 ms, preventing an unplanned process shutdown which is critical for safety and production continuity. Q: Can this module be used in an outdoor enclosure? A: Yes, its wide operating temperature range and high humidity tolerance make it suitable for uncontrolled environments, provided the enclosure protects it from direct exposure to sunlight, rain, and condensing conditions. Q: How does this processor differ from a standard PLC CPU? A: While both perform control, the SCP461-51 is integrated into Yokogawa's CENTUM VP DCS ecosystem. It offers superior scalability, integrated engineering tools for large I/O counts, advanced process control libraries, and seamless integration with Yokogawa's field instruments and safety systems.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/40-03-01 Proximitor Vibration Monitoring Module
Product Description The Bently Nevada 3500/40-03-01 Proximitor Monitor Module is a condition monitoring unit within the 3500 Machinery Protection System, engineered for high-accuracy shaft and vibration measurement using proximity probe technology. It is designed for paired-channel operation architecture, enabling coordinated measurement processing for machine dynamics such as radial vibration, axial thrust position, shaft eccentricity, differential expansion, and REBAM® analysis. The module integrates directly into the 3500 rack platform for continuous machinery health monitoring in high-criticality rotating equipment. Measurement Functions The module processes signals from Bently Nevada proximity transducers and converts them into calibrated mechanical parameters: Radial vibration measurement Axial thrust position monitoring Shaft eccentricity detection Differential expansion tracking REBAM® (rotor dynamics and alignment analysis) Channel operation is structured in paired configuration to support synchronized measurement behavior. Signal Processing & Frequency Response Advanced filtering architecture ensures stable and accurate measurement under varying operating conditions: Radial vibration filtering: 4 Hz to 4 kHz (direct mode) 1 Hz to 600 Hz (alternate mode) Thrust / expansion processing: Direct response: 1.2 Hz Gap filter: 0.41 Hz REBAM spike filtering range: 0.152 Hz to 8,678 Hz (programmable) Digital conditioning reduces noise and improves low-frequency resolution Electrical Characteristics Typical Power Consumption: 7 W Transducer Excitation Voltage: –24 VDC Input Impedance: 10 kΩ (standard configuration) 50 kΩ (TMR parallel configuration) Buffered Output Impedance: 550 Ω Output Protection: Short-circuit protected per channel Signal Output: Dedicated buffered output per channel Alarm & Measurement Accuracy Adjustable setpoints: 0–100% of full scale Measurement accuracy: ±0.13% Alert delay range: 1–60 seconds Danger delay range: 0.1–60 seconds Independent alarm configuration per measurement channel Supports both warning and trip-level logic thresholds System Integration Compatible with Bently Nevada 3500 rack architecture Direct interface with proximity transducer systems Provides real-time buffered signals for external diagnostics Supports condition monitoring and protection system integration Designed for continuous operation in critical machinery environments Mechanical Data Dimensions: 241.3 × 24.4 × 241.8 mm Weight: 0.91 kg Rack-mounted modular design within 3500 system chassis Hot-swappable architecture (system dependent configuration) Environmental Ratings Operating Temperature: 0°C to +65°C Compliance: ATEX, CSA, EN 61010-1, EMC standards Designed for electrically noisy and vibration-intensive environments Suitable for continuous industrial monitoring applications Application Areas Steam and gas turbine vibration monitoring Compressor shaft displacement and thrust control Pump radial vibration diagnostics Power generation rotating machinery protection Oil & gas critical equipment condition monitoring FAQ Q1: What makes this model different from multi-channel versions?This configuration uses paired-channel architecture optimized for specific measurement synchronization requirements. Q2: Can it measure multiple vibration parameters simultaneously?Yes, it supports multiple derived parameters including vibration, thrust, eccentricity, and expansion. Q3: Is it compatible with all 3500 system racks?Yes, it is designed for standard Bently Nevada 3500 rack integration.
$200.00 $100.00
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Yokogawa Yokogawa CP401-11 Processor Module | Industrial Controller
Product Description Yokogawa CP401-11 Processor Module The CP401-11 is a core processor module for Yokogawa's CP Series of programmable logic controllers (PLCs). Designed for industrial automation applications, this module provides the central processing, memory, and fundamental I/O capabilities required for discrete and process control tasks. It forms the basis of a flexible control system that can be expanded with specialized I/O modules. Technical Specifications The following specifications detail the core functionality of the CP401-11 module. Note that some detailed specifications, such as exact CPU clock speed and non-volatile memory capacity, are dependent on the specific firmware and application configuration. Please consult the official Yokogawa technical manual for the most precise application-specific details. Manufacturer and Model: Yokogawa CP401-11 Physical Dimensions: 60 mm (W) x 210 mm (H) x 160 mm (D) Processing Unit: Integrated CPU for program execution and logic solving. The architecture is optimized for deterministic scan cycles in industrial control environments. Memory: Includes both user-accessible work memory for ladder logic and data storage, as well as system ROM for firmware and boot functions. The available capacity for user programs is application-dependent. Integrated I/O: This base unit provides a standard complement of built-in digital input and output points for direct device connection. The exact number and type (sinking/sourcing) are defined in the hardware manual. Expansion Capability: Supports the connection of modular I/O units via a proprietary expansion bus, allowing for the addition of digital, analog, and special function modules. Communication Protocols: Supports standard industrial communication protocols for network integration. Typical interfaces may include a serial port for legacy device connections (e.g., Modbus RTU) and provisions for network adapter modules (e.g., Ethernet/IP or Modbus TCP/IP) for integration with HMIs and SCADA systems. Status Indicators: Includes LED indicators for power, run status, errors, and I/O activity for at-a-glance diagnostics. Application Scenarios The CP401-11 processor is suited for a range of small to medium-scale automation projects. Common applications include: Machinery Control: Management of conveyors, packaging lines, or assembly stations. Basic Process Control: Application in water treatment, HVAC, and building management systems. Distributed Architecture: Acting as a localized controller within a larger distributed control system (DCS) architecture. Frequently Asked Questions Q: What programming software is used for the CP401-11? A: Yokogawa CP Series controllers are typically programmed using proprietary control design software, such as an older version of PRM or the current CP-Programmer, which supports ladder logic (LD) and other IEC 61131-3 standard languages. Q: Can I connect analog devices directly to this module? A: The base CP401-11 module primarily provides digital I/O. To interface with analog signals (e.g., 4-20mA, 0-10V), you will need to add appropriate analog input and output expansion modules to the system. Q: How do I communicate with this PLC over Ethernet? A: Direct Ethernet communication typically requires an optional Ethernet communication module that attaches to the main processor unit. The serial port on the base unit can be used for other protocol communications or programming.
$200.00 $100.00
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Yokogawa SCP451-11-S1 | Yokogawa SCP451-11 | CENTUM VP Processor
Technical Overview The SCP451-11-S1 (SCP451-11) is a high-availability processor module designed for the Yokogawa CENTUM VP Field Control Station (FCS). This unit acts as the primary computational engine for executing complex regulatory control and sequence logic. Built for mission-critical industrial environments, the module supports redundant configurations to eliminate single points of failure in the control layer. It facilitates high-speed data processing and ensures deterministic communication between I/O modules and the human-machine interface (HMI). Technical Specifications The following hardware specifications define the operational limits and functional capabilities of the SCP451-11 module: Microprocessor: High-speed RISC Processor Main Memory Capacity: 32 MB Control Loop Capacity: Supports up to 200 blocks (depending on software licensing) Interface Type: Vnet/IP for real-time control network synchronization Current Consumption: 1.5 A at 5V DC Redundancy Support: Dual-redundant configuration capable Mounting: Fits into the AFV10D or AFV10S Field Control Unit slots Communication Speed: 1 Gbps via Vnet/IP interface Operating Temperature: 0 to 50 degrees Celsius Humidity Limits: 5 to 95 percent RH (non-condensing) Operational Capabilities The SCP451-11-S1 is engineered to handle intensive data acquisition and process control tasks. It utilizes a dedicated real-time operating system to ensure that control cycles remain consistent even under high network traffic loads. The module features robust self-diagnostics that monitor CPU temperature, memory parity, and bus integrity in real-time, triggering an immediate failover to the standby partner in redundant setups if a fault is detected. Application Use Cases This processor module is typically deployed in large-scale process industries including: Refinery and petrochemical distillation column control Power plant boiler and steam turbine management Chemical batch processing requiring high-precision timing Upstream oil and gas offshore platform automation FA Does the SCP451-11 support hot-swapping? Yes, when utilized in a dual-redundant configuration, a faulty SCP451-11 can be replaced without shutting down the Field Control Station, ensuring zero process interruption. What is the difference between the S1 and S3 versions? The S1 suffix generally denotes the specific hardware revision and compatibility with certain backplane versions of the CENTUM VP series. Always verify firmware compatibility with your existing system software (R5.01 or higher is typically required for this series).
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/40-02-01 Proximitor Monitor 4 Channel
Product Description The Bently Nevada 3500/40-02-01 Proximitor Monitor is a four-channel measurement module designed for the 3500 Machinery Protection System. It processes input signals from proximity probes and converts them into precise mechanical condition data for rotating equipment protection and performance monitoring. This module is typically deployed in critical machinery systems where continuous evaluation of shaft behavior is required, including vibration, axial movement, and dynamic displacement measurements. The “02-01” configuration uses a rear I/O termination design that simplifies field wiring and supports easier maintenance access. Measurement Capabilities Each channel independently processes proximity probe inputs to provide multiple machine condition parameters: Radial vibration monitoring Axial thrust position measurement Shaft eccentricity detection Differential expansion tracking REBAM (Relative Expansion Bending and Alignment Monitoring) Supports 1 to 4 probe inputs per module with channel-level configuration flexibility. Signal Conditioning & Filtering The module incorporates advanced digital signal processing to ensure measurement stability and accuracy: Programmable direct filtering: 4 Hz to 4000 Hz or 4 Hz to 600 Hz Gap filtering: –3 dB cutoff at 0.09 Hz Not-1X filtering: 60 cpm to 15.8× running speed 1X / 2X vector filters: Constant-Q design with –57.7 dB rejection Smax filtering range: 0.125 to 15.8× running speed These filtering options enable accurate separation of operating speed components and transient vibration events. Electrical Performance Typical Power Consumption: 7.7 W Transducer Supply: –24 VDC excitation Input Impedance: 10 kΩ (standard configuration) Buffered Outputs: One per channel via coaxial connector Output Protection: Short-circuit protected signal outputs Output Impedance: 550 Ω System Outputs & Interfaces Real-time buffered vibration signals available per channel Compatible with Bently Nevada 3500 rack architecture Supports external termination via rear I/O module (02-01 configuration) Hot-swappable I/O module design for maintenance without system shutdown Integrated rack communication via TX/RX backplane interface Front Panel Indicators OK LED: Indicates module health status TX/RX LED: Displays rack communication activity BYPASS LED: Indicates bypass operation mode Mechanical Data Monitor Module Dimensions: 241 × 24.4 × 242 mm Weight: 0.91 kg I/O Module (02-01 External Termination) Dimensions: 241 × 24.4 × 99.1 mm Weight: 0.4 kg Installation Rear rack-mounted I/O configuration Designed for modular integration within 3500 system chassis Environmental Specifications Operating Temperature: –30°C to +65°C Storage Temperature: –40°C to +85°C Humidity: 0–95% non-condensing Designed for high-vibration and electrically noisy industrial environments Application Areas Gas and steam turbine shaft monitoring Centrifugal compressor vibration protection Pump radial and axial displacement monitoring Power generation rotating machinery diagnostics Oil & gas process equipment condition monitoring FAQ Q1: What does the 02-01 configuration indicate?It refers to an external termination I/O design that simplifies wiring and supports easier field maintenance. Q2: How many channels are supported?The module supports four independent proximity probe channels. Q3: Can the I/O module be replaced without shutdown?Yes, the design supports hot-swappable I/O modules for maintenance continuity.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/34 TMR Relay Module
Product Description The Bently Nevada 3500/34 TMR Relay Module is a high-integrity output component designed for safety-critical machinery protection systems requiring Triple Modular Redundancy (TMR). It is engineered for applications where continuous availability and fault tolerance are essential, aligning with principles commonly referenced in safety instrumented system architectures. The module operates within the Bently Nevada 3500 rack system and is used together with a dedicated TMR Rack Interface Module and multiple monitor modules to achieve 2-out-of-3 voting logic for signal validation and output control. Each relay channel integrates configurable Alarm Drive Logic, enabling condition-based switching decisions derived from multiple monitoring inputs across the rack. Redundant Architecture & Control Logic Triple Modular Redundant (TMR) relay design Three independent relay elements drive a single output path Supports 2-out-of-3 voting logic with external monitor modules Requires TMR Rack Interface Module for system integration Fully programmable logic using 3500 Rack Configuration Software Supports Boolean logic structures (AND / OR) Input sources include: Alarm alerts Danger conditions Not-OK system status Any monitored variable or combined signal set Electrical Performance Typical Power Consumption: 9.6 W Relay Configuration: Three DPDT relays internally arranged as SPST output structure Channel Operation Mode: Normally Energized (NE) per channel Arc Suppression: Not implemented in this design configuration Relay Construction: Industrial epoxy-sealed assembly for environmental resistance Relay Load Ratings & Service Life Contact Life Expectancy: up to 100,000 cycles under rated conditions DC Load Rating: 1.5 A @ 24 VDC AC Load Rating: 1 A @ 120 VAC Designed for stable switching performance in continuous duty environments Optimized for low failure probability in high-availability systems Status Indication & Diagnostics The module includes onboard LED indicators for real-time operational feedback: OK Indicator: Confirms module health and normal operation TX/RX Indicator: Shows active communication within the rack backplane Channel Alarm LEDs: Display active relay alarm state per channel Environmental Specifications Operating Temperature: –30°C to +65°C Storage Temperature: –40°C to +85°C Humidity: Up to 95% non-condensing Sealing: Epoxy encapsulated for vibration and contamination resistance Designed for harsh industrial machinery environments Functional Characteristics High-reliability TMR output architecture Fault-tolerant relay switching design Integrated alarm logic execution at channel level Compatible with 3500 rack-based monitoring and protection systems Supports continuous safety-critical operation in redundant configurations Typical Applications Gas turbine protection systems Compressor emergency shutdown logic High-integrity safety interlock systems Power generation machinery protection Critical rotating equipment with redundancy requirements FAQ Q1: What makes the TMR version different from standard relay modules?It uses three independent relay paths with voting logic to ensure output integrity in fault-tolerant systems. Q2: Does it require additional rack components?Yes, it must be used with a TMR Rack Interface Module and compatible monitor modules. Q3: Can it operate without configuration software?No, logic configuration requires Bently Nevada 3500 Rack Configuration Software.
$200.00 $100.00
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Yokogawa Yokogawa CP334D S3 | CENTUM VP DCS Processor Module
Product Overview The CP334D functions as a high-speed Field Control Unit (FCU) processor within the Yokogawa CENTUM VP ecosystem. This module is engineered for real-time logic execution and deterministic process control in demanding industrial environments. Utilizing a specialized 32-bit RISC architecture, the CP334D manages complex control loops and extensive data scanning while maintaining the high availability standards required for critical infrastructure. It is designed to interface seamlessly with various I/O subsystems, providing a stable backbone for distributed control system (DCS) architectures. Technical Specifications The following specifications detail the hardware capabilities and environmental tolerances of the CP334D module: Main Processor: 32-bit RISC high-speed processing unit Volatile Memory: 2 MB RAM with ECC (Error Correction Code) Non-Volatile Memory: 2 MB Flash memory for system firmware and configuration storage I/O Capacity: Supports up to 256 local and remote I/O points per station Communication Interfaces: Dual-redundant Vnet/IP or Ethernet ports, RS-232C, and RS-485 serial ports Diagnostic Indicators: LED status lamps for RUN, PAUSE, STOP, and FAULT conditions Power Consumption: Maximum 5.5 VA at 5V DC Installation Environment: Designed for Rack-mount or Cabinet integration Heat Dissipation: Efficient passive cooling design suitable for industrial enclosures Performance Capabilities High-Speed Control Loops: Capable of executing regulatory, arithmetic, and logic control sequences with millisecond precision. System Redundancy: Supports dual-redundant configurations (when paired with a secondary module) to prevent system downtime during hardware transitions. Protocols: Comprehensive support for Modbus RTU/TCP, Foundation Fieldbus, and HART communication via compatible interface modules. Common Applications The CP334D is typically deployed in sectors where process continuity is non-negotiable, including: Petrochemical and refinery sequence control Power plant boiler and turbine management Water treatment and distribution automation Large-scale pharmaceutical batch processing Frequently Asked Questions Is the CP334D backward compatible with older CENTUM systems? The CP334D is primarily optimized for CENTUM VP; however, it can often be integrated into existing CENTUM CS 3000 environments depending on the existing bus architecture and software revision. How does the S3 suffix affect connectivity? The S3 designation typically refers to specific interface or slot compatibility within the Yokogawa rack system, ensuring the module aligns with the internal signal bus of the field control station.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/33-01-05 Relay Module 16 Channel
Product Description The Bently Nevada 3500/33-01-05 is a rack-based relay interface module designed for integration within the Bently Nevada 3500 Machinery Protection System. It delivers 16 independently configurable SPDT relay outputs used for machine protection logic, alarm handling, and interlock execution. The module operates as part of the 3500 rack architecture and is installed in any full-height slot located to the right of the Transient Data Interface (TDI). It is widely deployed in critical rotating machinery protection applications such as turbines, compressors, and large pump systems. The “01-05” configuration denotes a 16-channel relay output variant with a specific I/O/contact setup while maintaining identical core electrical and mechanical characteristics across standard configurations. Electrical Characteristics Total Relay Channels: 16 independent outputs Relay Type: SPDT (Form C contact structure) Typical Power Consumption: 5.8 W Arc Suppression: Integrated 250 Vrms suppression network Relay Construction: Epoxy-sealed contacts for enhanced vibration and contamination resistance Minimum Switching Load: 100 mA @ 5 VDC Contact Load Ratings DC Resistive Loads Maximum Current: 5 A Maximum Voltage: 125 VDC (standard configuration) / 30 VDC (failsafe variant) Power Handling: 70 W @ 24 VDC 10 W @ 48 VDC 9 W @ 60 VDC AC Resistive Loads Maximum Current: 5 A Maximum Voltage: 250 VAC Maximum Power: 1200 VA Low-Level Signal Operation Minimum Load Capability: 1 mA @ 1 VDC (gold-contact operation mode) Relay Configuration & Logic Functions Channels arranged in 4 groups of 4 outputs Each group selectable as Normally Energized (NE) or Normally De-Energized (ND) Fully programmable Alarm Drive Logic per channel Supports Boolean logic (AND / OR) for voting strategies Input sources include: Alert conditions Danger alarms Not-OK system status Measured variable signals from any rack monitor module Independent logic assignment for each relay channel Mechanical Data Main Module Dimensions: 241 × 24.4 × 242 mm Weight: 0.7 kg I/O Module Dimensions: 241 × 24.4 × 99.1 mm Weight: 0.4 kg Rack Installation Requirements Main unit: 1 full-height front slot I/O unit: 1 full-height rear slot Placement: Right side of TDI module in 3500 rack system Environmental Ratings Operating Temperature: –30°C to +65°C Storage Temperature: –40°C to +85°C Humidity: Up to 95% non-condensing Designed for continuous duty in harsh machinery monitoring environments Typical Applications Turbomachinery protection systems Compressor and turbine shutdown logic Pump vibration alarm interlocking Process safety and sequencing control Industrial condition monitoring systems FAQ Q1: What does the 01-05 configuration represent?It defines a specific relay output and I/O configuration variant while maintaining identical core module architecture. Q2: Can each relay channel be independently programmed?Yes. All 16 channels support independent Alarm Drive Logic configuration. Q3: Is the module suitable for safety interlock applications?Yes, it is commonly used for alarm annunciation and interlock logic in critical machinery systems.
$200.00 $100.00
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Yokogawa Yokogawa CP133E-64S3 | CP133E-64S3 | Brand New CPU Module
Product Overview The CP133E-64S3 serves as the primary computational engine for Yokogawa CENTUM VP integrated control systems. This field control station (FCS) module is engineered to execute sophisticated control logic, manage extensive real-time databases, and facilitate high-speed data exchange across the Vnet/IP network. By leveraging a dual-core architecture, it provides the deterministic processing required for large-scale industrial automation tasks. Technical Core Specifications Model Number: CP133E-64S3 System Compatibility: CENTUM VP, CENTUM CS 3000 Processor Architecture: Dual-core Intel Xeon Processor Volatile Memory: 4GB DDR3 SDRAM Error Correction: ECC (Error Correction Code) supported Network Interface: Dual-redundant 1Gbps Vnet/IP Ethernet ports Power Configuration: Supports redundant power supply modules Module Dimensions: 51mm x 229mm x 51mm Physical Weight: Approximately 1.11 kg (2.45 lbs) Country of Origin: Japan Mounting Type: Rack-mounted within FCS enclosure Operational Capabilities and Reliability The CP133E-64S3 is specifically hardened for continuous operation in environments where system downtime is not an option. Unlike standard computing hardware, this module utilizes a real-time operating system (RTOS) to ensure that control cycles are executed with millisecond precision. The integration of the Intel Xeon chipset allows for advanced diagnostics and higher calculation density compared to previous generation RISC-based modules. FAQ Does the CP133E-64S3 support online maintenance? Yes, when configured in a redundant pair, this module allows for hot-swapping and firmware updates without interrupting the controlled process. What is the primary difference between the CP133E and earlier CP133 models? The CP133E-64S3 features optimized memory management and enhanced heat dissipation capabilities, making it more suitable for high-density I/O configurations in CENTUM VP R6 and above.
$200.00 $100.00
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Bently Nevada 162291-01 3500/33 | Bently Nevada Relay Output Module 16Ch
Product Overview The Bently Nevada 3500/33 (162291-01) is a rack-mounted relay interface module engineered for the 3500 Machinery Protection System. It provides 16 independent relay channels designed for configurable alarm execution, voting logic processing, and machine protection interlocks based on monitored condition data. The module is installed within the 3500 rack chassis, occupying full-height slots positioned to the right of the Transient Data Interface (TDI). It is commonly used for implementing shutdown logic, alarm annunciation, and protective system integration in rotating equipment environments. Electrical & Relay Performance Total Outputs: 16 independent relay channels Relay Configuration: SPDT (Form C contacts) Channel Grouping: 4 groups of 4 channels, configurable as NE or ND Switching Capability: Supports low-level and power-level switching depending on system design Minimum Switching Load: 100 mA @ 5 VDC DC Load Ratings Maximum Current: 5 A Maximum Voltage: 125 VDC (standard systems) / 30 VDC (failsafe configurations) Maximum Power: 70 W @ 24 VDC 10 W @ 48 VDC 9 W @ 60 VDC AC Load Ratings Maximum Current: 5 A Maximum Voltage: 250 VAC Maximum Power: 1200 VA Low-Level Contact Capability Minimum load: 1 mA @ 1 VDC (gold-contact compatible operation) Control Logic & Functional Behavior Fully programmable Alarm Drive Logic per channel Supports Boolean logic structures (AND / OR) Accepts multiple input sources: Alert status signals Danger alarm conditions Not-OK system status Measured variables from any rack monitor channel Enables voting logic configuration for redundant protection schemes Supports independent channel logic assignment across all 16 outputs Power & Reliability Typical Power Consumption: 5.8 W Relay Contact Life: Standard: ~10,000 mechanical/electrical cycles Extended variants: up to 100,000 cycles (depending on configuration and load conditions) Arc Suppression: Integrated 250 Vrms suppression network Relay Construction: Epoxy-sealed for environmental resistance and vibration tolerance Environmental Ratings Operating Temperature: –30°C to +65°C Storage Temperature: –40°C to +85°C Relative Humidity: up to 95% non-condensing Designed for continuous duty in machinery protection environments Mechanical Data Main Module Dimensions: 241 × 24.4 × 242 mm Weight: 0.7 kg I/O Module Dimensions: 241 × 24.4 × 99.1 mm Weight: 0.4 kg Rack Installation Front slot: 1 full-height position Rear slot: 1 full-height I/O position Placement: Right side of TDI module within 3500 rack architecture Application Areas Turbine and compressor protection systems Pump and motor condition monitoring shutdown logic Industrial alarm annunciation systems Process interlock and safety logic execution Rotating machinery vibration protection platforms FAQ Q1: Can each relay operate independently?Yes, all 16 relay outputs are individually configurable with dedicated alarm logic. Q2: Does the module support redundant protection logic?Yes, it supports voting logic and multi-input Boolean alarm structures for redundancy strategies. Q3: What is the installation position in the rack?It installs to the right of the TDI module using one full-height front and rear slot pair.
$200.00 $100.00
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Yokogawa Yokogawa CP333D Processor Module | CENTUM VP Control System
Product Overview The CP333D functions as a high-speed processing core tailored for Yokogawa distributed control systems. It provides the computational backbone necessary for complex control loops and data integration within the CENTUM CS and CENTUM VP architectures. Designed for mission-critical industrial environments, the module emphasizes deterministic performance and hardware reliability. Technical Specifications Model Identification: CP333D Architecture: 32-bit RISC high-speed processor Clock Frequency: 400 MHz System Memory: 256 MB RAM capacity I/O Capacity: Interface support for up to 16 slots Communication Interface: Dual integrated Ethernet ports Input Voltage Requirement: 3.3V DC (Tolerance +/- 9 percent) Power Consumption: 2.5A Maximum Thermal Tolerance: 0 to 50 degrees Celsius (Operating) Storage Limits: -20 to 70 degrees Celsius Relative Humidity: 5 to 95 percent RH (Non-condensing) Physical Mass: 1.0 kg Module Dimensions: 20.3 cm x 5.1 cm x 25.4 cm Functional Comparison and Integration The CP333D represents an evolution over earlier CP333 models by offering enhanced processing overhead for modern CENTUM VP environments. While maintaining backward compatibility with CENTUM CS infrastructure, it utilizes optimized RISC instruction sets to handle increased fieldbus traffic and more intensive control logic compared to legacy 16-bit or lower-clocked 32-bit modules. Common Application Scenarios Continuous process control in petrochemical and refining facilities. Centralized management of distributed I/O nodes in power generation. High-availability control loops requiring redundant processor configurations. Frequently Asked Questions Does this module support redundancy? Yes, the CP333D is designed to function in redundant pairs to ensure system uptime in the event of a hardware fault. Is this compatible with newer CENTUM VP versions? The CP333D is fully compatible with CENTUM VP, provided the appropriate firmware and carrier base are utilized.
$200.00 $100.00
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Yokogawa Yokogawa CP401-10 | CENTUM CS 3000 Processor Module | DCS
Product Overview The CP401-10 serves as a core computational unit within the Yokogawa CENTUM CS 3000 Distributed Control System (DCS). While often misidentified in basic listings as a simple power unit, this module is a high-performance Field Control Station (FCS) processor designed for real-time process control and high-speed data acquisition. It facilitates seamless communication between I/O modules and the supervisory network, ensuring deterministic control in demanding industrial environments such as chemical processing, refining, and power generation. Technical Specifications The following data represents the electrical and environmental performance standards for the CP401-10 unit: Model Identification: CP401-10 System Compatibility: CENTUM CS 3000 R3 / CENTUM VP Redundancy Support: Dual-redundant configuration capable Power Consumption: 24V DC input (Internal bus powered) Maximum Current Draw: 0.5A at 24V DC Processor Architecture: 32-bit RISC Processor Memory Capacity: 16 MB Main Memory with ECC support Communication Interface: V net / VL net Mounting Requirement: Installed in a Field Control Unit (FCU) rack Heat Dissipation: 12W maximum Cooling System: Natural convection (No fans required) Ambient Operating Temperature: 0 to 50 degrees Celsius Storage Temperature Range: -20 to 70 degrees Celsius Ambient Humidity: 5 to 95 percent RH (Non-condensing) Weight: 0.45 kg Regulatory Compliance: CE Mark, UL, and CSA standards Functional Comparison: CP401-10 vs. CP451-10 CP401-10: Designed for V net communication in standard CS 3000 environments. Ideal for legacy system maintenance and standard process control loops. CP451-10: Enhanced version designed for Vnet/IP high-speed Ethernet-based control networks, offering higher throughput for data-intensive applications.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/33 16-Channel Relay Module
Product Overview The Bently Nevada 3500/33 16-Channel Relay Module is a full-height rack-mounted output module designed for integration within the Bently Nevada 3500 machinery protection system. It provides 16 independently configurable relay outputs used for alarm, shutdown, and control logic execution based on monitored machine condition data. The module installs in the rear of the 3500 rack system, positioned to the right of the Transient Data Interface (TDI) module. Multiple relay modules can be deployed within a single rack configuration depending on system design requirements. Key Technical Specifications Relay Output Characteristics Total Channels: 16 independent relay outputs Relay Type: SPDT (Single-Pole Double-Throw) Contact Configuration: Form C Switching Groups: 4 groups of 4 channels (selectable ND/NE operation) Relay Contact Life: ~10,000 switching cycles (typical load conditions) Arc Suppression: 250 Vrms integrated suppression circuitry Sealing: Epoxy-sealed relay construction for vibration resistance Power & Consumption Typical Power Consumption: 5.8 W Low thermal load suitable for dense rack installations Control & Logic Functions Fully programmable Alarm Drive Logic Supports AND / OR logic combinations Input sources include: Alert and Danger alarm states Not-OK system status Individual or grouped measured variables from rack channels Supports voting logic configuration per relay output Front Panel Indicators OK LED: Indicates normal module operation status TX/RX LED: Communication activity within 3500 rack backplane Channel Alarm LED: Indicates active relay alarm state Physical & Installation Data Main Module Dimensions: 241 × 24.4 × 242 mm I/O Module Dimensions: 241 × 24.4 × 99.1 mm Main Module Weight: 0.7 kg I/O Module Weight: 0.4 kg Rack Requirement: 1 full-height front slot (main module) 1 full-height rear slot (I/O module) Environmental & Reliability Industrial-grade epoxy sealed relay design High resistance to vibration and electrical noise Designed for continuous operation in machinery monitoring environments Relay arc suppression enhances long-term contact stability Typical Applications Turbomachinery protection systems Compressor and pump monitoring racks Vibration and condition monitoring alarm execution Plant-wide safety shutdown logic integration Power generation and process industry protection systems FAQ Q1: Can each relay be independently configured?Yes. Each of the 16 relay outputs can be individually programmed using alarm drive logic and voting configurations. Q2: Does the module support redundant logic conditions?Yes. The module supports voting logic and multi-input AND/OR conditions for redundancy and fault tolerance. Q3: Where is the module installed in the rack?It is installed to the right side of the TDI module, occupying both front and rear full-height slots.
$200.00 $100.00
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Yokogawa Yokogawa CP451-10 S2 Processor Module | CENTUM VP DCS Unit
Product Description The CP451-10 S2 serves as a core processing unit within the Yokogawa CENTUM VP Distributed Control System (DCS) architecture. Engineered for high-availability environments, this module facilitates complex logic execution, high-speed data acquisition, and seamless plant-wide communication. A critical design feature of the CP451-10 S2 is its support for dual-redundant configurations. By utilizing synchronous process execution between active and standby units, the system maintains uninterrupted control stability. In the event of a hardware fault on the primary card, the standby processor assumes control without bumping the process or losing volatile data, ensuring maximum uptime for critical infrastructure. Technical Specifications The following technical data outlines the hardware capabilities and physical constraints of the CP451-10 S2 module: Processor: Intel Xeon E5-2680 v4 (14-Core, 2.40 GHz) System Memory: 32 GB DDR4 ECC RAM Primary Storage: 512 GB Solid State Drive (SSD) Operating Environment: Windows Server 2016 Standard Communication Compatibility: Vnet/IP High-Speed Control Network Redundancy Support: Synchronous hardware-level mirroring Mounting Dimensions: 482.6 mm x 88.9 mm x 44.5 mm Net Weight: 8.0 kg Input Voltage: Dual redundant power supply support (standard DCS backplane) Operating Temperature: 0 to 50 degrees Celsius Humidity Range: 5 to 90 percent RH (non-condensing) Primary Application Fields The CP451-10 S2 is deployed in sectors requiring zero-fail process logic, specifically: Petrochemical and hydrocarbon processing (Oil and Gas) Large-scale thermal and nuclear power generation Complex pharmaceutical manufacturing lines Advanced water and wastewater treatment facilities
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/32M 125720-01 Relay Output Module
Product Description The Bently Nevada 3500/32M 125720-01 is a full-height relay interface module designed for the Bently Nevada 3500 Machinery Protection System. It delivers four isolated SPDT relay outputs that can be independently configured for protection, interlock, alarm annunciation, or shutdown logic across monitored rotating equipment. The module supports advanced Alarm Drive Logic, allowing relay actions to be driven by combined conditions such as Alert, Danger, Not-OK states, or Process Variable Limits (PPLs) sourced from any monitoring module within the 3500 rack. Logic operations can be structured using AND/OR combinations through the 3500 Rack Configuration Software. Installation is supported in any rack position located to the right of the Transient Data Interface Module. Its epoxy-sealed construction and diagnostic LED indicators make it suitable for continuous operation in high-reliability industrial environments. Key Features Four independent relay channels with configurable logic control SPDT relay architecture for flexible switching applications Supports Alarm Drive Logic using multi-channel voting schemes Accepts Alert, Danger, Not-OK, and PPL inputs from rack monitors Software-based configuration via 3500 Rack Configuration Software Epoxy-sealed relay construction for harsh environments Selectable relay energization mode (NE / NDE) Built-in LED diagnostics for module status, communication, and channel alarms Designed for integration into machinery protection and shutdown systems Technical Specifications Parameter Specification Brand Bently Nevada Model 3500/32M Part Number 125720-01 Series 3500 Machinery Protection System Product Type 4-Channel Relay Output Module Module Format Full-height rack module Relay Configuration 4 × SPDT relays Control Logic AND / OR programmable Alarm Drive Logic Input Sources Alert, Danger, Not-OK, PPL signals Power Consumption 5.8 W typical Module Supply Voltage 24 VDC (rack supplied) Arc Suppression 250 Vrms integrated suppression Minimum Switching Current 100 mA @ 12 VDC Max DC Switching Current 2 A @ 0–30 VDC DC Voltage Limit Up to 125 VDC AC Switching Rating 250 VAC max, 2 A Maximum Load Power 450 VA Contact Life 100,000 cycles @ rated load Operating Temperature -30°C to +65°C Storage Temperature -40°C to +85°C Humidity 95% RH non-condensing I/O Module Size 241 × 24.4 × 99.1 mm I/O Module Weight 0.4 kg Functional Operation Each relay channel operates independently and can be mapped to any monitored parameter within the rack. Logic programming allows: Alarm aggregation across multiple channels Shutdown sequencing based on voting logic Condition-based relay triggering Flexible interlock design for machinery protection This structure enables integration into turbine control systems, compressor safety shutdown loops, and plant-wide alarm systems. Application Scope Turbine protection and trip systems Compressor and pump safety shutdown circuits Generator alarm and interlock logic Industrial rotating machinery monitoring systems Process plant alarm annunciation panels FAQ What is the primary function of the 3500/32M module? It provides programmable relay outputs used for alarm signaling and machinery shutdown logic within a Bently Nevada 3500 protection rack. Can each relay be configured independently? Yes. All four SPDT outputs operate independently and can be assigned separate logic conditions. Is the module suitable for redundant protection systems? Yes. It is compatible with 3500 rack architectures used in high-availability protection systems. How is the relay logic configured? Relay behavior is defined through the 3500 Rack Configuration Software using AND/OR logic based on monitored conditions.
$200.00 $100.00
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Yokogawa Yokogawa SCP461-11 | ProSafe-RS Safety SIS Processor Module
Product Description The SCP461-11 serves as the high-performance logic processing engine for Yokogawa ProSafe-RS safety instrumented systems. Specifically engineered for integration within the SSC60S (Single) and SSC60D (Duplex) safety control units, this module provides the computational reliability required for SIL3 safety loops. By utilizing a dedicated 32-bit RISC architecture, the SCP461-11 ensures rapid execution of safety logic while maintaining rigorous diagnostic coverage. Technical Specifications CPU Architecture: 32-bit RISC high-speed processor Clock Frequency: 40 MHz Flash Memory: 2 MB dedicated for system firmware and application logic storage NVRAM: 128 KB non-volatile memory for retaining operation data and sequence-of-events Communication Interface: Dual isolated RS-485 ports supporting high-speed fieldbus and peer-to-peer connectivity Expansion Capability: Dual-slot interface for auxiliary I/O integration or specialized communication sub-modules Redundancy Support: Fully compatible with dual-redundant configurations in SSC60D units Safety Integrity Level: Suitable for use in SIL3 applications according to IEC 61508 Power Consumption: 5V DC at 0.5A (Typical) Operating Temperature: 0 to 50 degrees Celsius Weight: Approx. 0.35 kg Core Applications This processor is widely deployed in emergency shutdown systems (ESD), fire and gas systems (F&G), and burner management systems (BMS). Its robust design allows for stable operation in harsh petrochemical, power generation, and upstream oil and gas environments where system uptime is critical to personnel and environmental safety. FAQ How does the SCP461-11 handle power loss? The module utilizes 128 KB of NVRAM to ensure that critical operational variables and diagnostic logs are preserved immediately upon loss of system power, preventing data corruption. Can I use this module in a non-redundant setup? Yes, the SCP461-11 is designed to function as a standalone controller in SSC60S units or as part of a synchronized pair in SSC60D redundant units.
$200.00 $100.00
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Yokogawa Yokogawa CP345-S1 | CP345S1 | CENTUM CS 3000 Analog Input
Product Overview The CP345-S1 (CP345S1) is a precision-engineered analog input module specifically developed for the Yokogawa CENTUM CS 3000 distributed control system (DCS). This hardware interface allows for the seamless integration of field signals into the control network, ensuring high-integrity data acquisition for critical industrial processes. It is optimized for environments requiring dense channel counts without compromising on signal isolation or conversion speed. Technical Specifications The following data outlines the electrical and environmental parameters for the CP345-S1 (CP345S1). Please note that while some documentation suggests a shipping weight of 2000g, the module net weight is approximately 0.7kg. Channel Density: 16 isolated channels Input Signal Types: Voltage (plus/minus 10V), Current (plus/minus 20mA), Low Voltage (plus/minus 50mV) A/D Conversion Resolution: 16-bit Measurement Accuracy: plus/minus 0.05 percent of full span Common Mode Rejection Ratio (CMRR): greater than 100dB Normal Mode Rejection Ratio (NMRR): greater than 80dB Temperature Drift Coefficient: plus/minus 0.005 percent per degree Celsius Operating Temperature Range: 0 to 55 degrees Celsius Allowable Ambient Humidity: 10 to 90 percent RH (non-condensing) Physical Dimensions: 120mm x 90mm x 220mm Power Consumption: Approximately 450mA at 5V DC Application Scenarios The CP345-S1 (CP345S1) is typically deployed in heavy industries where reliable sensor feedback is mandatory. Common applications include: Refinery process monitoring (flow and pressure loops) Power plant thermal data acquisition Chemical reactor temperature control via 4-20mA or mV transmitters Water treatment facility remote I/O stations Frequently Asked Questions How does the CP345-S1 (CP345S1) handle signal noise? The module utilizes a high CMRR of over 100dB and a 16-bit resolution architecture to filter out electromagnetic interference and maintain signal purity in noisy industrial environments. Is the CP345-S1 (CP345S1) hot-swappable? When used within the standard CENTUM CS 3000 I/O nest configurations, these modules support online replacement, though specific system bus rules should be followed to maintain process continuity.
$200.00 $100.00
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Yokogawa Yokogawa CP701-S1 Field Control Station CPU Module
Technical Overview The CP701 (specifically the CP701-S1 variant) functions as the primary computational engine for Yokogawa Field Control Stations (FCS). This module is designed to execute complex control algorithms and manage real-time data processing within the CENTUM series architecture. It provides a stable environment for regulatory control and sequence logic, ensuring high reliability for critical process industries. The hardware utilizes a dual-clock architecture to balance internal computational speed with external communication synchronization. With 8MB of onboard memory, it supports substantial configuration data and function block execution for medium-to-large scale industrial applications. Hardware Specifications The following data represents the core technical parameters for the CP701-S1 processor unit: Manufacturer: Yokogawa Model Designation: CP701 Order Part Number: CP701-S1 Memory Capacity: 8 MB (ECC supported for data integrity) Internal Processor Frequency: 75 MHz External Bus Clock: 25 MHz Power Consumption: Approximately 5W (dependent on configuration) Weight: 0.3 kg Mounting Type: Rack-mounted within the FCS nest System Architecture: Compatible with CENTUM CS 1000 and CS 3000 systems Functional Comparison Unlike higher-tier processor modules that may offer 16MB or 32MB of RAM, the CP701-S1 is optimized for standard field control tasks where memory footprint is managed efficiently. It provides a more cost-effective solution for stations that do not require extensive batch recipe storage or massive historical buffering at the controller level. Frequently Asked Questions Question: Is the CP701 compatible with newer CENTUM VP software? A: Compatibility depends on the specific hardware revision and the bus interface. Generally, these modules are maintained as legacy replacements for CS 3000 systems, but they can coexist in integrated environments via specialized bus converters. Question: What causes a 'SBY' (Standby) light to blink on this module? A: This usually indicates a synchronization state in a redundant setup or a configuration mismatch between the primary and secondary CP701-S1 module
$200.00 $100.00
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Yokogawa Yokogawa CP451-11 Centum VP DCS Processor Module Unit
Product Description The CP451-11 serves as a core processing engine for the Yokogawa Centum VP Distributed Control System (DCS). While this specific revision has reached its end-of-life phase and is succeeded by the CP451-51, it remains a critical component for maintaining legacy infrastructure and ensuring system continuity in established industrial environments. This module is engineered for high-availability control logic execution, managing complex regulatory and sequence control tasks with precision. It features a robust dual-core architecture that segregates system tasks from control execution to maintain stability even under high load conditions. Technical Specifications Brand: Yokogawa Model: CP451-11 System Compatibility: Centum VP (Vnet/IP) Architecture: Dual-core processor for redundant task management Memory: High-capacity ECC RAM for data integrity and large-scale control logic storage Interface: Vnet/IP communication port support Width: 32 mm Height: 145 mm Depth: 200 mm Weight: 0.74 kg Input Voltage: 5V DC (supplied via backplane) Current Consumption: 2.0 A maximum Operating Temperature: 0 to 50 degrees Celsius Humidity Range: 10 to 90 percent RH (non-condensing) Legacy Support and Migration As the CP451-11 is no longer in active production, it is primarily utilized as a direct replacement part for existing field stations. For new installations or system upgrades, the CP451-51 is the recommended functional equivalent, offering improved processing efficiency while maintaining backward compatibility with existing Vnet/IP bus structures and I/O module nests. Common Applications Oil and Gas refinery process control Chemical plant sequence management Power generation facility monitoring Replacement of aging Centum VP field control station components Product Comparison CP451-11: Original dual-core processor module; standard for earlier Centum VP releases. CP451-51: Current production model; enhanced security features and optimized heat dissipation; fully interchangeable with the CP451-11
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/32M 4-Channel Relay Module
Product Description The Bently Nevada 3500/32M 4-Channel Relay Module is a full-height relay output module designed for use within the Bently Nevada 3500 Machinery Protection System. The module delivers four independently configurable relay outputs for machinery alarm annunciation, shutdown logic, and process protection functions. Each relay channel supports programmable voting logic and can be configured using AND/OR alarm conditions through the 3500 Rack Configuration Software. The module can process alert, danger, Not-OK, and proportional value inputs from any monitor channel installed in the rack, allowing flexible integration into turbine, compressor, pump, and rotating equipment protection strategies. The relay module is engineered with epoxy-sealed SPDT relays and integrated arc suppression to improve operational reliability in industrial environments with frequent switching operations. Key Features Four independently programmable relay outputs Full-height module architecture for 3500 racks SPDT relay contacts with configurable energized states Supports complex AND/OR voting logic Compatible with alarm, danger, and Not-OK status inputs Integrated arc suppression for improved relay longevity Epoxy-sealed relays for environmental protection LED indicators for communication and alarm diagnostics Configurable using Bently Nevada 3500 Rack Configuration Software Designed for machinery protection and shutdown systems Technical Specifications Parameter Specification Brand Bently Nevada Model 3500/32M Product Type 4-Channel Relay Module System Compatibility 3500 Machinery Protection System Module Format Full-height Relay Channels 4 Relay Type Single-pole double-throw (SPDT) Relay Operation Normally Energized or Normally De-Energized selectable Typical Power Consumption 5.8 W Communication Indicators TX/RX LEDs Alarm Indicators Channel Alarm LEDs Status Indicator OK LED Relay Sealing Epoxy-sealed Arc Suppression Standard integrated suppressor Relay Contact Life 100,000 cycles at 5 A, 24 VDC / 240 VAC Minimum Switched Current 100 mA at 12 VDC Maximum DC Switching Current 2 A at 30 VDC DC Voltage Rating Up to 125 VDC AC Voltage Rating Up to 250 VAC Maximum AC Switching Current 2 A Maximum Switching Power 450 VA Operating Temperature -30°C to +65°C Storage Temperature -40°C to +85°C Humidity 95% non-condensing Main Module Dimensions 241 × 24.4 × 242 mm Main Module Weight 0.7 kg I/O Module Dimensions 241 × 24.4 × 99.1 mm I/O Module Weight 0.4 kg Rack Space Requirement 1 full-height front slot + 1 rear I/O slot Relay Logic Functions The Bently Nevada 3500/32M module supports programmable relay behavior for advanced machinery protection schemes. Each relay output can be assigned to: Alert conditions Danger alarms Not-OK monitor status Process variable thresholds Multi-channel voting logic Combined rack alarm conditions This flexibility allows the module to operate as part of shutdown systems, annunciators, interlocks, and plant-wide protection architectures. Application Areas Typical applications include: Turbine shutdown systems Compressor protection panels Generator alarm systems Critical pump monitoring Plant annunciation systems Rotating equipment trip logic Emergency protection circuits FAQ What is the function of the 3500/32M module? The module provides programmable relay outputs used for alarms, shutdowns, annunciation, and machinery protection logic within a 3500 monitoring rack. Can each relay channel be configured independently? Yes. Each of the four relay outputs supports independent configuration and separate voting logic assignments. What relay contact type is used? The module uses SPDT epoxy-sealed relays with integrated arc suppression for industrial reliability. Is the relay state configurable? Yes. Relay channels can be configured as Normally Energized or Normally De-Energized through onboard switch settings.
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Yokogawa Yokogawa CP451-10 Processor Module | Discontinued Replacement
Product Description OverviewThe CP451-10 Processor Module from Yokogawa is a high-performance control processor designed for advanced industrial process automation systems. This module has been officially discontinued and replaced by the CP451-50 Processor Module, offering improved functionality and enhanced reliability. Technical Specifications Model / Part Number: CP451-10 Manufacturer: Yokogawa Product Type: Processor Module Weight: 0.45 Kg Power Supply: 24 V DC nominal Operating Temperature: 0 to 55 degrees Celsius Storage Temperature: -20 to 70 degrees Celsius Communication Interfaces: Redundant bus support, high-speed data transfer compatible with Yokogawa DCS systems Mounting: Rack-mountable, compatible with Yokogawa CENTUM series frames Diagnostic Functions: Built-in self-check routines, status LEDs for operational monitoring Replacement Model: CP451-50 for enhanced processing speed and extended system compatibility ApplicationsThe CP451-10 Processor Module is suitable for complex process control applications such as chemical plants, power generation, water treatment, and other critical infrastructure where real-time control and high reliability are required. FAQQ: Can CP451-10 be replaced directly with CP451-50?A: Yes, the CP451-50 is the direct replacement and offers improved performance while maintaining backward compatibility. Q: What is the maximum supported system size?A: Supports full-scale CENTUM DCS configurations with redundant control loops. Q: Is on-site installation support required?A: Installation should be performed by certified personnel following Yokogawa guidelines.
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EMERSON Emerson Ovation 5X00357G05 Enhanced Events Input Module | 16-Channel
Overview The Emerson Ovation 5X00357G05 is a high-performance 16-channel enhanced events input module designed for precise digital signal acquisition in demanding industrial control environments. With differential inputs, wire-break detection, and integrated diagnostics, this module ensures reliable operation in safety-critical automation systems. Key Features High-speed event detection for accurate digital transition capture Differential input channels supporting 24V signals Integrated wire-break monitoring for improved safety and reliability Compact form factor suitable for dense I/O configurations Built-in diagnostics for real-time fault monitoring Robust environmental resilience: vibration, shock, temperature, and humidity tolerant Modular design for seamless integration with Emerson Ovation systems Technical Specifications Parameter Specification Model Number 5X00357G05 Input Channels 16 digital inputs Input Type 24V differential Wire-Break Detection Yes, integrated Filtering Configurable per channel Diagnostics Built-in fault monitoring Operating Temperature -40 to +70 Celsius Humidity Range 0 to 95 percent RH, non-condensing Vibration Resistance 0.05g RMS (5 Hz to 500 Hz) Shock Resistance 15g, 20ms half-sine Dimensions 4.4 x 10.2 x 10.8 cm Weight Approximately 0.2 kg Origin USA Certification Factory-tested and certified by Emerson Applications Ideal for monitoring high-speed digital signals in power generation, process automation, and safety-critical systems. Suitable for applications requiring precise event tracking, robust diagnostics, and reliable operation in extreme environmental conditions. FAQ Q: Can this module handle different types of digital signals?A: Yes, the 5X00357G05 supports various digital input types and configurable filtering per channel. Q: How does the module improve safety?A: Wire-break detection and built-in diagnostics allow operators to identify wiring faults quickly, reducing system downtime and enhancing safety. Q: Is it compatible with other Ovation modules?A: Yes, it integrates seamlessly into the modular Ovation control system architecture.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/25 125800-01 Keyphasor I/O Module
Product Description The Bently Nevada 3500/25 125800-01 Keyphasor® Input/Output Module is a dual-channel monitoring interface designed for rotational reference and phase measurement within the 3500 Machinery Protection System. This half-height module processes signals from proximity transducers and magnetic pickup sensors, converting them into stable digital timing pulses for precise shaft position tracking and synchronized vibration analysis. Engineered for continuous-duty turbomachinery environments, the module supports both Standard and TMR (Triple Modular Redundant) rack architectures. Internal terminations simplify installation by reducing external wiring requirements while improving long-term connection reliability in high-vibration applications. The module is commonly deployed in gas turbines, steam turbines, compressors, pumps, generators, and other rotating assets requiring accurate speed and phase reference signals for machinery diagnostics and protection systems. Key Features Dual independent Keyphasor input channels Compatible with proximity probes and magnetic pickups Internal termination configuration for simplified cabinet wiring Supports Standard and TMR 3500 rack systems High-speed pulse processing for synchronous measurements Hot-replaceable module design Integrated diagnostics for signal validation and module condition monitoring Stable phase reference for vector analysis and orbit measurements Suitable for both low-speed and high-speed rotating equipment API 670 compliant machinery protection functionality Technical Specifications Parameter Specification Brand Bently Nevada Series 3500 Series Model 3500/25 Part Number 125800-01 Product Type Keyphasor I/O Module Termination Style Internal Terminations Module Format Half-height module Input Channels 2 isolated channels Supported Sensors Proximity probes, magnetic pickups, optional optical sensors Input Voltage Range 12 to 32 VDC Maximum Input Current 10 mA Frequency Range 0 to 10 kHz typical Extended Frequency Capability Up to 20 kHz depending on sensor type Output Type TTL-compatible pulse output Buffered Output 0–10 VDC Output Current Maximum 20 mA Phase Accuracy Typical ±0.5° Rack Compatibility 3500 Standard and TMR racks Operating Temperature 0°C to +65°C Storage Temperature -40°C to +85°C Relative Humidity 5–95% non-condensing Vibration Resistance 5–2000 Hz, 2G Shock Resistance 30G, 11 ms Protection Rating IP20 Dimensions 24.2 cm × 11.2 cm × 2.5 cm Weight 0.38 kg Applications The Bently Nevada 3500/25 125800-01 module is used in machinery monitoring systems requiring accurate rotational timing references and phase synchronization, including: Steam and gas turbines Centrifugal compressors Industrial pumps Turbo generators High-speed motors Process plant rotating machinery Oil & gas production systems Power generation facilities Operational Advantages By generating accurate phase reference pulses, the module enables synchronized data collection across vibration monitoring channels. This improves machinery diagnostics such as: Shaft speed tracking Phase angle calculation Orbit analysis Vector vibration measurements Synchronous averaging Rotor dynamic analysis Internal terminations also reduce installation complexity and improve cabinet maintainability in critical industrial environments. FAQ What is the primary function of the 3500/25 module? The module provides rotational reference pulses used for speed measurement, phase calculations, and synchronized vibration monitoring within the Bently Nevada 3500 protection platform. Does the module support redundant systems? Yes. The module is compatible with both standard and Triple Modular Redundant (TMR) 3500 rack configurations. Which sensors can be connected to this module? The module accepts inputs from proximity probes, magnetic pickups, and in some applications optical sensors. Can the module be replaced while the system is operating? Yes. The module supports hot-swapping when used within compatible 3500 rack systems.
$200.00 $100.00
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