TSI Monitoring Systems
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Bently Nevada Bently Nevada 3500/05-01-03-05-00-01 System Rack Chassis
System Overview The 3500/05-01-03-05-00-01 is a full-capacity chassis designed for the Bently Nevada 3500 machinery protection architecture. It functions as the central structural platform that houses all monitoring, relay, communication, and power modules while enabling system-wide communication and regulated power distribution through an integrated backplane. This configuration is specifically engineered for installations requiring front-side wiring access, making it suitable for wall-mounted or cabinet-integrated protection systems. Configuration Definition This rack variant is defined by the following configuration structure: Full-size chassis with 14 module positions Bulkhead-mount installation format with front-access wiring design Standard non-barrier backplane architecture No internal isolation barriers included Standard EIA finish and mechanical specification Mechanical Construction & Access Design Rack format: 19-inch EIA full-size chassis Mounting style: Bulkhead installation with front-access wiring layout Frame material: Industrial-grade aluminum alloy Nominal dimensions: Height: ~266 mm Width: 483 mm Depth: ~305 mm Serviceability: All field wiring connections accessible from the front panel This design reduces rear clearance requirements and simplifies cabinet integration in constrained installations. Module Layout & Slot Allocation The internal slot architecture supports structured system configuration: Dedicated positions for core system modules: Rack Interface Module (RIM) Redundant or single power supply units Remaining slots configured for: Vibration monitoring modules Relay modules Communication interface modules The layout ensures stable communication across all installed modules via the system backplane. Electrical & Backplane System Backplane type: Standard non-barrier design Power architecture: Supports redundant or single power supply configurations Communication infrastructure: System data bus Relay signal bus Keyphasor and transducer signal routing channels Full compatibility with standard Bently Nevada 3500 module range Designed for continuous machinery protection in API 670-compliant systems Environmental & Operating Limits Operating temperature range: –20°C to +65°C Storage temperature range: –40°C to +85°C Humidity tolerance: Up to 95% non-condensing Mechanical resilience: Suitable for vibration-intensive industrial environments Standards & Certifications EMC immunity: EN 61000-6-2 EMC emissions: EN 61000-6-4 Electrical safety: EN 61010-1 Hazardous area approvals: Class I, Division 2, Groups A–D, T4 ATEX / IECEx Zone 2 (non-barrier configuration) Typical Application Areas Turbine protection and monitoring systems Compressor and rotating equipment diagnostics Refinery and petrochemical plant machinery protection Power generation monitoring systems Wall-mounted or cabinet-integrated 3500 system installations requiring front wiring access FAQ Q1: What is the main advantage of bulkhead mounting?It allows all wiring connections to be accessed from the front, reducing rear clearance requirements. Q2: Can this rack support all 3500 modules?Yes. It is compatible with standard Bently Nevada 3500 monitoring, relay, and communication modules. Q3: Is internal barrier protection included?No. This configuration uses a standard non-barrier backplane design.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/05-01-02-05-00-01 Rack Chassis
Overview The 3500/05-01-02-05-00-01 is a full-size rack-mount chassis for the Bently Nevada 3500 Machinery Protection System. It provides the physical frame, power distribution, and backplane communication required to integrate all monitoring, relay, communication, and power modules into a complete machinery protection setup. This configuration features a standard, non-barrier backplane and supports panel- and rail-mounted industrial installations. Configuration Details This order code specifies the rack configuration: Full-size 14-slot frame Rack-mount design compatible with 19-inch EIA rails Standard non-barrier backplane No internal barriers installed Standard EIA finish and aluminum chassis The design ensures modular flexibility for a wide range of protection and monitoring modules. Mechanical & Dimensional Specifications Rack Type: Full-size 3500 series chassis Mounting: Rack-mount (19-inch EIA rails) Total Module Slots: 14 Reserved Slots: 1 for Rack Interface Module (RIM), 1–2 for power supply modules Remaining Slots: Flexible for monitors, relays, or communication modules Chassis Material: Aluminum Finish: Standard EIA Dimensions: Height: ~266 mm (10.5 in) Width: 483 mm (19 in) Depth: ~305 mm (12 in) Electrical & Backplane Architecture Backplane Type: Standard non-barrier Power Distribution: Supports single or dual redundant supplies Communication Buses: System data bus Relay bus Keyphasor and transducer signals Module Compatibility: All standard 3500 series modules Designed for continuous API-670-compliant machinery protection Environmental & Compliance Ratings Operating Temperature: –20°C to +65°C Storage Temperature: –40°C to +85°C Relative Humidity: Up to 95% non-condensing Vibration: Industrial-grade, turbine/compressor compatible EMC: EN 61000-6-2 (immunity), EN 61000-6-4 (emissions) Electrical Safety: EN 61010-1 Hazardous Area Approvals: Class I, Div 2, Groups A–D, T4; ATEX / IECEx Zone 2 Applications Gas and steam turbine protection systems Compressor and critical rotating machinery monitoring Refinery and petrochemical equipment protection Power generation machinery Any installation requiring a complete 3500 system rack infrastructure Option Code Breakdown 01 — Full-size rack (14 slots) 02 — Rack-mount format 05 — Standard backplane 00 — No internal barriers 01 — Standard finish FAQ Q1: Can internal barrier modules be installed in this rack?No. This rack is configured with a standard non-barrier backplane. Q2: How many modules can the rack support?Up to 14 module positions including reserved slots for RIM and power supply modules. Q3: Is this rack compatible with all 3500 modules?Yes. It supports all standard 3500 series modules for monitoring, relay, and communication functions.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/05-01-01-05-00-01 System Rack Chassis
Overview The 3500/05-01-01-05-00-01 is a full-capacity rack assembly within the Bently Nevada 3500 monitoring platform. It serves as the central physical and electrical foundation for installing and linking all system modules used in machinery protection applications. This configuration represents a standard, non-barrier, panel-mounted 14-slot rack equipped with a unified backplane architecture for signal exchange and power distribution across all installed modules. Configuration Definition This specific order code defines the rack characteristics as follows: Full-size rack frame with 14 available module slots Panel-mounted installation design Standard backplane architecture without internal isolation barriers Non-barrier system configuration for general industrial environments Standard finish and mechanical build specification Mechanical Design Rack format: 19-inch EIA-compatible chassis Installation type: Panel mounting with rear service access Construction material: High-strength aluminum alloy frame Nominal dimensions: Height: 266 mm Width: 483 mm Depth: 305 mm Modular slot layout designed for flexible system expansion The structure is optimized for continuous operation in vibration-prone environments typical of rotating machinery installations. Slot Allocation & System Layout The internal architecture supports structured module placement: Dedicated slots for system-critical components Rack Interface Module (RIM) Redundant power supply modules Remaining positions available for: Vibration monitoring modules Relay interface modules Communication and diagnostic modules The backplane ensures synchronized communication across all installed modules. Electrical Architecture Integrated system backplane for high-speed data exchange Distributed power bus supporting redundant power input Signal routing for Keyphasor, transducer, and relay logic channels Fully compatible with standard Bently Nevada 3500 module family Designed for continuous monitoring and protection system operation Environmental Performance Operating temperature range: –20°C to +65°C Storage range: –40°C to +85°C Relative humidity tolerance: up to 95% non-condensing Mechanical robustness aligned with industrial vibration standards Compliance & Safety Standards EMC immunity: EN 61000-6-2 EMC emissions: EN 61000-6-4 Electrical safety: EN 61010-1 Hazardous area certification: Class I, Division 2, Groups A–D, T4 ATEX / IECEx Zone 2 (non-barrier configuration) System Integration Notes Designed for integration with all standard 3500 series modules Requires correct placement of RIM and power modules in designated slots Backplane supports system-wide diagnostics and communication integrity checks Compatible with standard rack-based 3500 system architecture Typical Applications Gas and steam turbine protection systems Compressor condition monitoring installations Refinery and petrochemical equipment protection Power generation rotating machinery systems Large-scale multi-channel machinery monitoring platforms FAQ Q1: Is this rack suitable for internal barrier modules?No. This configuration is a non-barrier system rack and is not designed for internal isolation modules. Q2: How many modules can be installed?The rack supports 14 module positions, including slots reserved for RIM and power supplies. Q3: Can it be upgraded after installation?Yes. Additional modules can be added as long as slot capacity and power budget are maintained.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/05 System Rack | 14 Slot EIA Rack Unit
Overview The 3500/05 system rack from Bently Nevada serves as the structural and electrical backbone of the 3500 Machinery Protection System. It is responsible for mechanically supporting all monitoring modules while ensuring stable power delivery and high-speed internal communication through a dedicated backplane architecture. This rack does not perform signal processing itself; instead, it provides the platform required for all 3500 system modules to operate as an integrated protection and monitoring system. Mechanical Structure & Configuration The rack is engineered in two standardized formats to support different installation requirements: Full-size rack (19-inch EIA) Supports up to 14 module slots Designed for standard industrial control cabinet integration Provides full rear access for wiring and maintenance Mini rack (12-inch format) Supports up to 7 module slots Compact design for space-constrained installations Rear wiring access maintained for serviceability Mini rack configurations are not compatible with bulkhead mounting arrangements. Mounting Options The system rack supports multiple installation methods depending on site design: Panel mounting using rectangular cut-outs with rear access wiring Standard 19-inch rack mounting on EIA rails Bulkhead mounting with front-access wiring for tight enclosures Each mounting method is selected based on cabinet architecture and maintenance accessibility requirements. Electrical Architecture Integrated backplane for module-to-module communication Centralized power distribution through installed power supplies Left-side reserved slots for system-critical modules: Rack Interface Module (RIM) Power supply units Remaining slots are configurable for vibration monitors, relay modules, and communication interfaces within the 3500 platform. Environmental & Compliance Standards Operating temperature range: –20°C to +65°C EMC compliance: EN 61000-6-2 (industrial immunity) EN 61000-6-4 (industrial emissions) Electrical safety standard: EN 61010-1 FCC Part 15 compliance for electromagnetic regulation Hazardous Area Certifications The rack is suitable for deployment in classified environments when used with approved system components: Class I, Division 2, Groups A–D, T4 ATEX / IECEx: II 3G Ex nA nC ic IIC T4 Gc System Integration Notes Internal barrier configurations require dedicated grounding via 3500/04-01 earthing module Mini rack configurations require compatible system software version 2.70 or later Some display and enclosure accessories may have compatibility constraints depending on rack type Application Areas Gas and steam turbine protection systems Compressor and rotating equipment monitoring Refinery and petrochemical machinery infrastructure Power generation condition monitoring systems Large-scale machinery protection architectures requiring modular expansion FAQ Q1: Does the 3500/05 perform vibration measurement?No. It functions purely as a rack platform for housing and interconnecting monitoring modules. Q2: Can different module types be mixed in one rack?Yes. The rack supports mixed configurations of monitors, relays, and communication modules within available slots. Q3: Is the rack expandable after installation?Yes. System expansion is supported as long as slot capacity and power budget are respected.
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/01-01 Rack Config Software Manual System
Overview The 3500/01-01 from Bently Nevada is a configuration software package and system manual designed for the Bently Nevada 3500 machinery protection and condition monitoring platform. It is used during system commissioning, expansion, and maintenance to define rack architecture, module assignments, and alarm logic settings. Unlike measurement modules, this product does not perform signal acquisition or vibration analysis. Instead, it provides the engineering environment required to configure and manage the 3500 monitoring rack. System Functionality Rack-level configuration for Bently Nevada 3500 monitoring systems Module slot assignment and system topology definition Channel configuration for connected monitoring modules Alarm threshold setup and logical grouping Support for system commissioning and reconfiguration Documentation-driven setup guidance for engineering teams Software & Documentation Scope PC-based configuration utility for 3500 rack setup Engineering manual included for installation and system logic reference Used in conjunction with 3500 series hardware modules Supports structured configuration of multi-channel monitoring systems Facilitates system expansion and maintenance planning Technical Characteristics Platform: Bently Nevada 3500 Series system environment Purpose: Rack configuration and system setup (non-measurement function) Deployment: Engineering workstation (Windows-based environment) Output: Configuration data for rack and module initialization Compatibility: Full integration with 3500 monitoring hardware family Application Scenarios Commissioning of new 3500 rack monitoring systems Reconfiguration after system expansion or module replacement Maintenance and lifecycle updates of installed monitoring racks Engineering validation of system architecture prior to startup FAQ Q1: Does this product measure vibration or process signals?No. It is strictly a configuration tool and manual for system setup, not a measurement module. Q2: Is it required for installing a Bently Nevada 3500 system?Yes. It is typically used during initial commissioning and system configuration stages. Q3: Can it be used for all 3500 series racks?It is designed for compatibility across the Bently Nevada 3500 rack platform and its supported modules.
$200.00 $100.00
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Bently Nevada Bently Nevada 1900/65A-01-01-03-00-01 Vibration Monitor Unit
Overview The 1900/65A 01-01-03-00-01 from Bently Nevada is a compact vibration monitoring device engineered for continuous protection of small and auxiliary rotating machinery. It is designed as a standalone alternative to rack-based systems, providing essential monitoring, alarm logic, and output functions in a simplified hardware format. This configuration is commonly applied where API 670–style protection is required without deploying a full-scale 3500 monitoring rack. It supports proximity probe-based displacement measurement along with relay-based protection and analog integration into plant control systems. Typical installations include pumps, fans, compressors, blowers, and other general-purpose rotating assets. Configuration Definition The model code 01-01-03-00-01 defines the functional structure of the unit: Proximity probe input configured for shaft displacement measurement Standard vibration signal processing channel Dual relay output package (Alert + Danger) Standard isolated 4–20 mA analog output Universal AC/DC power input module This combination provides a complete monitoring loop for single-channel machinery protection applications. Technical Specifications Parameter Specification Brand Bently Nevada Model 1900/65A 01-01-03-00-01 Product Type Single-Channel Vibration Monitor Monitoring Function Shaft Displacement (Proximity Probe Based) Sensor Compatibility 5 mm, 8 mm, 11 mm Proximity Probe Systems Measurement Mode Overall Vibration / Displacement Input Signal Range Approx. 0–200 µm peak-to-peak (system dependent) Frequency Response 3 Hz to 10 kHz (sensor dependent) Buffered Output Front-panel BNC (raw signal access) Alarm Levels Alert / Danger Alarm Functionality Non-OK, vibration, system fault detection Alarm Accuracy ±1% of full scale Alarm Delay Configurable Alarm Latching Selectable Relay Type 2 × Form-C (SPDT) Relay Ratings 5 A @ 250 Vac / 5 A @ 30 Vdc Analog Output Isolated 4–20 mA Load Capacity Up to 600 Ω Power Input 85–264 Vac / 100–300 Vdc Power Consumption < 10 W Electrical Isolation 1500 Vac Mounting Type DIN rail or panel mount Operating Temperature -20°C to +65°C Humidity 95% non-condensing Protection Class IP20 Dimensions 50 × 150 × 120 mm Weight 0.8 kg System Functionality The monitor continuously processes vibration signals from an attached proximity probe system and compares measured values against configured alarm thresholds. When abnormal vibration levels are detected, the system activates relay outputs for protective shutdown or alarm indication. Key output functions include: Real-time vibration trend output via 4–20 mA loop Direct signal access through buffered BNC output Independent relay-based protection logic Adjustable alarm timing and latching behavior Typical Applications This configuration is widely deployed in condition monitoring of smaller rotating machines, including: Centrifugal pumps Industrial fans Air blowers Process compressors Auxiliary drive systems Cooling and ventilation equipment FAQ What type of measurement does this monitor support? It is designed for proximity probe-based shaft displacement and overall vibration monitoring. Can this unit be integrated into a PLC or DCS system? Yes. The isolated 4–20 mA output allows direct integration into control and trending systems. Is this suitable for machine shutdown protection? Yes. The dual relay outputs provide independent Alert and Danger signals for protection logic.
$200.00 $100.00
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Bently Nevada Bently Nevada 1900/65A (167699-02+172323-01) General Purpose Equipment Monitor
Overview The 1900/65A 167699-02 machinery monitor from Bently Nevada is a compact single-channel vibration protection system developed for continuous condition monitoring of rotating equipment. Combined with the 172323-01 power supply module, the unit delivers standalone machinery protection functions for applications where a full rack-based monitoring system is unnecessary. The monitor supports multiple transducer technologies including proximity probes, velocity pickups, and accelerometers. It provides real-time vibration measurement, configurable alarm processing, relay-based shutdown capability, and analog signal transmission for integration with plant control systems. Designed for small and medium rotating assets, the 1900/65A is commonly installed on pumps, blowers, fans, compressors, and auxiliary process machinery requiring dependable vibration supervision. Key Features Single-channel machinery vibration monitoring Compatible with displacement, velocity, and acceleration sensors Integrated Alert and Danger alarm processing Dual Form-C relay outputs for shutdown logic Buffered BNC output for portable analyzer connection Isolated 4–20 mA output for DCS and PLC systems Compact DIN-rail or panel-mounted installation Suitable for API-style machinery protection applications Technical Specifications Parameter Specification Brand Bently Nevada Monitor Model 1900/65A 167699-02 Power Supply Module 172323-01 Product Type Machinery Vibration Monitor Monitoring Channels 1 Channel Supported Sensor Types Proximity Probes, Velocity Sensors, Accelerometers Measurement Functions Overall Vibration, Shaft Displacement, Acceleration Frequency Response Typically 3 Hz to 10 kHz Alarm Levels Alert and Danger Alarm Accuracy ±1% of Full Scale Alarm Delay Adjustable Alarm Latching Selectable Relay Quantity 2 Relays Relay Type Form-C (SPDT) Relay Rating 5 A @ 250 Vac / 5 A @ 30 Vdc Buffered Output Front Panel BNC Connector Analog Output Isolated 4–20 mA Power Input Range 85–264 Vac, 50/60 Hz DC Input Range 100–300 Vdc Power Consumption Less than 10 W Isolation Rating 1500 Vac Operating Temperature -20°C to +65°C Humidity Rating 95% Non-Condensing Mounting Method DIN Rail or Panel Mount Protection Rating IP20 Dimensions 2.2 × 12.4 × 12.6 cm Weight 0.289 kg Monitoring Functions The 1900/65A continuously processes vibration signals from connected sensors and compares measured values against configured alarm thresholds. When vibration exceeds predefined limits, the monitor activates relay outputs for annunciation or machine shutdown sequences. The integrated buffered output provides direct access to the raw transducer signal, allowing maintenance personnel to connect portable analyzers for diagnostic evaluation and troubleshooting. Typical Applications This monitor is widely used for protection of general-purpose and auxiliary rotating machinery, including: Centrifugal pumps Industrial fans Air blowers Small compressors Cooling tower drives Electric motors Gearboxes Process skids System Advantages Compared with larger rack-based systems, the 1900/65A offers a simplified installation footprint while maintaining critical machinery protection functionality. The unit is particularly suitable for distributed equipment layouts and standalone machine packages requiring reliable vibration shutdown capability. FAQ What sensors are supported by the 1900/65A monitor? The monitor supports proximity probe systems, velocity transducers, and accelerometers depending on the selected configuration. Can the unit provide shutdown protection? Yes. The monitor includes independent Alert and Danger relays that can be wired into machine shutdown circuits. Is the monitor suitable for DCS integration? Yes. The isolated 4–20 mA output allows direct interface with PLC, DCS, and SCADA systems for vibration trending and monitoring.
$200.00 $100.00
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ABB ABB IPMON01 MPSII Power Monitor Module
Overview The ABB IPMON01 MPSII Power Monitor Module is designed to supervise system power conditions and monitor operational status signals within ABB control and power distribution architectures. The module continuously checks incoming supply voltage, fan operation, and fault status conditions to improve system reliability and support preventive maintenance strategies. Integrated alarm and status outputs allow rapid fault notification to host controllers or supervisory systems during abnormal operating conditions. The module is commonly installed in ABB INFI-90 and Harmony environments where uninterrupted power integrity is essential for stable control system operation. Its compact form factor and industrial-grade electrical design make the module suitable for continuous monitoring applications in power generation, process automation, and high-availability industrial systems. Key Features Continuous monitoring of AC and DC system power inputs Supports 120 VAC, 240 VAC, and 125 VDC applications Integrated fan-speed supervision inputs Dedicated power-fail interrupt signaling Open-collector alarm and status outputs Opto-isolated bus alarm interface Real-time fault detection and status reporting Designed for critical process control environments Compatible with ABB MPSII power monitoring systems Technical Specifications Specification Details Model IPMON01 Product Type MPSII Power Monitor Module Manufacturer ABB Input Voltage 120/240 VAC, 125 VDC Power Consumption 24 VA Input Current 0.3 A at 120 VAC Input Current 0.2 A at 240 VAC / 125 VDC Logic Status Inputs 2 Inputs Logic 0 Threshold 0.8 VDC at 10 mA Sink Current Logic 1 Threshold 3.1 VDC at 80 µA Source Current Fan Monitoring Inputs 2 Inputs for Fan Speed Detection Power Fail Interrupt Open Collector Output PFI Logic 1 Output 4.75 to 5.25 VDC Status Output Type Non-Isolated Open Collector Bus Alarm Output Opto-Isolated Open Collector Driven Bus Alarm Voltage 24 VDC Bus Alarm Logic Range 5 to 30 VDC Mounting Style Rack Mounted Dimensions 40.13 × 3.56 × 21.84 cm Weight 0.7 kg Functional Description The IPMON01 module supervises power supply integrity and communicates system health information through dedicated status and alarm outputs. The module can detect low-voltage conditions, cooling fan abnormalities, and general fault states that may affect system stability. Power fail interrupt functionality enables connected controllers to respond immediately during supply interruptions or abnormal voltage fluctuations. The integrated monitoring logic improves operational reliability by supporting early fault identification before critical failures occur. Typical Applications Common industrial applications include: ABB INFI-90 power system supervision Harmony rack voltage monitoring Power supply fault diagnostics Fan failure monitoring in control cabinets Distributed control system protection Process plant power integrity monitoring Industrial automation alarm systems FAQ What is the main function of the IPMON01 module? The IPMON01 monitors power input conditions, fan status signals, and system fault outputs to help maintain stable operation of ABB control systems. Which voltage inputs are supported? The module supports 120 VAC, 240 VAC, and 125 VDC operating environments. Does the module provide alarm signaling? Yes. The unit includes power fail interrupt outputs, status outputs, and opto-isolated bus alarm signaling. Can the IPMON01 monitor cooling fan operation? Yes. The module includes dedicated fan status inputs used for low-speed or failed-fan detection within system cabinets.
$200.00 $100.00
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EMERSON Emerson Epro PR6424/000-010 Eddy Current Sensor | Precision Monitoring
Product Description OverviewThe PR6424/000-010 from Emerson Epro is a 16 mm eddy current sensor engineered for high-precision vibration and displacement monitoring in rotating machinery and industrial equipment. This sensor provides reliable, stable measurements, making it suitable for predictive maintenance and condition monitoring systems. Key Technical Specifications Dynamic Performance Sensitivity/Linearity: 4 V/mm (101.6 mV/mil), linearity error ≤ ±1.5% Nominal Air Gap (Center): 2.7 mm Long-Term Drift: <0.3% Static Measurement Range: ±2.0 mm (±0.079 in) Dynamic Measurement Range: 0–1,000 μm (0–0.039 in) Mechanical Characteristics Sleeve Thread: M18 x 1.5 Sensor Length Options: 40, 50, 60, 70, 80, 90, 100, 150, 200, 250, 290 mm (length = x + 12.5 mm formula) Cable: Optional armored cable; standard cable included Cable Length Options: 4 m, 5 m, 8 m, 10 m Cable Connector: LEMO type ApplicationsIdeal for vibration analysis, shaft displacement monitoring, and machine condition assessment in pumps, turbines, motors, and other rotating machinery. Suitable for both industrial plants and laboratory testing setups. FAQ Q: What is the maximum dynamic measurement range of this sensor?A: The dynamic range extends up to 1,000 μm (0.039 in), optimized for high-frequency vibration detection. Q: Can the sensor be used in high-temperature environments?A: The sensor supports standard industrial temperatures; for high-temperature applications, consult Emerson Epro specifications for extended ranges. Q: Are there alternatives within the same series?A: The PR6420 series offers similar performance with varied measurement ranges and sensitivity ratings for specific industrial needs.
$200.00 $100.00
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EMERSON Emerson PR6423/002-041 Eddy Current Sensor High-Precision Shaft Monitoring
Product Description The PR6423/002-041 Eddy Current Sensor from Emerson is engineered for high-accuracy monitoring of shaft vibration and displacement in rotating machinery. Designed for demanding industrial environments, this sensor delivers reliable data to support predictive maintenance and enhance operational safety. Key Technical Specifications Sensor Type: Eddy Current Displacement Model: PR6423/002-041 Probe Size: Standard PR6423 series, optimized for industrial shafts Measurement Range: Micrometer-level displacement detection Signal Output: Compatible with Emerson/EPRO monitoring systems Operating Temperature: -40°C to +70°C Shock Resistance: 10 g, half-sine, 11 ms duration Vibration Endurance: 1 mm peak-to-peak from 2 to 13.2 Hz 0.7 g from 13.2 to 150 Hz Airborne Contaminant Compliance: ISA-S71.04-1985 Class G3 Relative Humidity: 5–95% non-condensing Connector Type: Standard PR6423 industrial connector Cable Length: Configurable to installation requirements Application Scenarios The PR6423/002-041 is ideal for turbines, compressors, pumps, and other critical rotating equipment. Its high-resolution displacement detection enables predictive maintenance programs and minimizes unplanned downtime, ensuring continuous operational reliability. FAQ Q: What is the primary function of the PR6423/002-041?A: It measures shaft vibration and displacement with micrometer precision using eddy current technology, supporting predictive maintenance and real-time condition monitoring. Q: Can this sensor operate in harsh environments?A: Yes, it is built to withstand extreme temperatures, shock, vibration, and airborne contaminants typical in heavy industrial settings. Q: How does it differ from other PR6423 models?A: Differences include probe configuration, cable length, and connector type, allowing flexible installation tailored to specific machinery requirements.
$200.00 $100.00
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EMERSON Emerson EPRO PR6423/004-030-CN Eddy Current Probe for Shaft Monitoring
Product Description Overview The PR6423/004-030-CN from Emerson EPRO is a high-precision eddy current sensor engineered for continuous shaft monitoring in rotating machinery. It enables accurate detection of radial vibration, shaft displacement, and eccentricity without any mechanical contact, ensuring reliable performance in demanding industrial environments. Designed for long-term operation, this sensor is ideal for turbines, compressors, and other high-speed machinery. Probe Features The PR6423/004-030-CN probe is a compact 8 mm diameter eddy current sensor with a factory-attached 4-meter cable. It operates alongside the CON041 signal converter, which excites the probe, processes high-frequency return signals, and delivers proportional analog output suitable for control and protection systems. This configuration supports regional compliance and simplified installation practices. Technical Specifications PR6423/004-030-CN Eddy Current Probe Measurement Principle: Non-contact eddy current displacement Probe Tip Diameter: 8 mm Cable Length: 4 meters (factory-installed) Linear Measurement Range: 0–2 mm (typical) Extended Range: Up to 3 mm depending on calibration and target material Sensitivity: ~7.87 mV/μm (with matched CON041 driver) Frequency Response: DC to 10 kHz Target Material: Conductive ferromagnetic steels (e.g., 42CrMo4 / AISI 4140) Operating Temperature: -35°C to +180°C Environmental Protection: IP66–IP67 Construction: Stainless steel housing High-temperature PEEK probe tip PTFE-insulated cable CON041 Signal Converter Function: Probe excitation, RF signal demodulation, linearization, and output conditioning Output Signal: Linear analog voltage (typically 0–10 V proportional to displacement) Frequency Bandwidth: 0–20 kHz (-3 dB) Dynamic Response: Rise time <15 μs Power Supply: 23–32 VDC (nominal 24 V) Operating Temperature: -30°C to +100°C Installation: DIN rail mounting with screw terminals Applications Continuous shaft vibration and displacement monitoring in turbines and compressors Detection of rotor eccentricity and alignment issues Industrial machinery requiring non-contact measurement under harsh conditions Long-term condition monitoring and predictive maintenance programs FAQ Q: Can the PR6423/004-030-CN probe be used with non-ferromagnetic targets?A: The probe is optimized for ferromagnetic conductive materials. Non-ferromagnetic targets may require calibration adjustments. Q: What is the maximum measurement distance?A: The typical linear range is 0–2 mm, with an extended range up to approximately 3 mm depending on target material. Q: Is the sensor suitable for high-temperature environments?A: Yes, the probe operates up to +180°C, and the signal converter up to +100°C. Q: Are there similar models for comparison?A: Emerson offers other PR64xx series probes with different cable lengths, tip diameters, and frequency ranges to match specific monitoring requirements.
$200.00 $100.00
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EMERSON Emerson EPRO PR6423/004-030-CN Eddy Current Probe for Shaft Monitoring
Product Description Overview The PR6423/004-030-CN from Emerson EPRO is a high-precision eddy current sensor engineered for continuous shaft monitoring in rotating machinery. It enables accurate detection of radial vibration, shaft displacement, and eccentricity without any mechanical contact, ensuring reliable performance in demanding industrial environments. Designed for long-term operation, this sensor is ideal for turbines, compressors, and other high-speed machinery. Probe Features The PR6423/004-030-CN probe is a compact 8 mm diameter eddy current sensor with a factory-attached 4-meter cable. It operates alongside the CON041 signal converter, which excites the probe, processes high-frequency return signals, and delivers proportional analog output suitable for control and protection systems. This configuration supports regional compliance and simplified installation practices. Technical Specifications PR6423/004-030-CN Eddy Current Probe Measurement Principle: Non-contact eddy current displacement Probe Tip Diameter: 8 mm Cable Length: 4 meters (factory-installed) Linear Measurement Range: 0–2 mm (typical) Extended Range: Up to 3 mm depending on calibration and target material Sensitivity: ~7.87 mV/μm (with matched CON041 driver) Frequency Response: DC to 10 kHz Target Material: Conductive ferromagnetic steels (e.g., 42CrMo4 / AISI 4140) Operating Temperature: -35°C to +180°C Environmental Protection: IP66–IP67 Construction: Stainless steel housing High-temperature PEEK probe tip PTFE-insulated cable CON041 Signal Converter Function: Probe excitation, RF signal demodulation, linearization, and output conditioning Output Signal: Linear analog voltage (typically 0–10 V proportional to displacement) Frequency Bandwidth: 0–20 kHz (-3 dB) Dynamic Response: Rise time <15 μs Power Supply: 23–32 VDC (nominal 24 V) Operating Temperature: -30°C to +100°C Installation: DIN rail mounting with screw terminals Applications Continuous shaft vibration and displacement monitoring in turbines and compressors Detection of rotor eccentricity and alignment issues Industrial machinery requiring non-contact measurement under harsh conditions Long-term condition monitoring and predictive maintenance programs FAQ Q: Can the PR6423/004-030-CN probe be used with non-ferromagnetic targets?A: The probe is optimized for ferromagnetic conductive materials. Non-ferromagnetic targets may require calibration adjustments. Q: What is the maximum measurement distance?A: The typical linear range is 0–2 mm, with an extended range up to approximately 3 mm depending on target material. Q: Is the sensor suitable for high-temperature environments?A: Yes, the probe operates up to +180°C, and the signal converter up to +100°C. Q: Are there similar models for comparison?A: Emerson offers other PR64xx series probes with different cable lengths, tip diameters, and frequency ranges to match specific monitoring requirements.
$200.00 $100.00
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EMERSON Emerson AMS EZ 1000 | Eddy Current Measurement System | Precision Monitoring
Product Description The AMS EZ 1000 is a fully integrated eddy current measurement system designed to simplify and enhance shaft monitoring for turbines, compressors, pumps, and other rotating machinery. It combines a precision sensor, high-quality cable, and compatible converter into a single system, while also allowing individual component purchases to optimize inventory management. Engineered for compliance with API 670 standards, the system delivers accurate, oil-resistant measurements, reducing downtime and enabling field calibration for quick part replacement. Its universal design supports third-party sensors, giving engineers maximum flexibility when managing spares. Technical Specifications Measurement & System Features Complete measurement chain: sensor, cable, and converter included API 670 compliant for eddy current monitoring Field calibration capability for on-site replacement Compatible with third-party sensors to reduce inventory needs Reliable, oil-resistant sensors ensure accurate readings Warranty: 42 months Operational Advantages Mix-and-match sensor and cable configuration for flexible deployment Quick push-button field calibration using Emerson Machine Studio software Minimizes downtime during maintenance or sensor replacement Applications Ideal for high-reliability monitoring of rotating machinery, including: Steam, gas, and hydro turbines Industrial compressors and pumps Gearboxes and rotating machinery in heavy equipment Facilities requiring rapid sensor replacement and calibration FAQ Q: Can I replace the sensor without sending the system back to the factory?A: Yes, field calibration allows you to swap sensors on-site, saving time and minimizing downtime. Q: Is it compatible with sensors from other manufacturers?A: The system is designed to accept third-party sensors, providing flexible inventory options. Q: How long is the warranty?A: Emerson provides a 42-month warranty for the AMS EZ 1000. Q: Does it meet industry standards?A: Yes, it is fully compliant with API 670 eddy current measurement requirements.
$200.00 $100.00
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ABB ABB IMPMON01 Power Monitor Module INFI-90 System
Overview The ABB IMPMON01 is a dedicated power supervision module designed for ABB Bailey INFI-90 distributed control systems. It continuously tracks the condition of system power rails and provides diagnostic feedback to maintain stable operation of control hardware. This module plays a critical role in identifying abnormal voltage conditions and ensuring that power-related faults are detected early. It supports system reliability by reporting real-time status information to the control processor and operator interfaces. Functional Capabilities Monitors multiple system voltage levels including logic and analog supplies Detects undervoltage, overvoltage, and power interruption events Reports power status and alarms to the control system Provides hardware-level diagnostics for maintenance and troubleshooting Supports stable operation of control modules through continuous supervision Technical Specifications Electrical Characteristics Backplane Supply: 5 VDC Power Consumption: Approximately 4–6 W Monitored Voltages: +5 VDC logic supply +15 VDC and –15 VDC analog rails Input Power (external reference): 0.3 A at 120 VAC 0.2 A at 240 VAC or 125 VDC Monitoring and I/O Signals Logic Status Inputs: 2 inputs (logic low indicates fault) Logic 0: 0.8 VDC at 10 mA sink Logic 1: 3.1 VDC at 80 µA source Fan Status Inputs: 2 inputs for fan condition monitoring Power Fail Interrupt (PFI): 1 open-collector output (non-isolated) Logic 0: 0.8 VDC at 10 mA Logic 1: 4.75–5.25 VDC at 80 µA Status Output: Open-collector output for module fault indication Bus Alarm Output: Opto-isolated open-collector (24 V class) Logic 1 indicates fault condition Communication Interface System Integration: INFI-90 I/O bus Data Transfer: Continuous status reporting and alarm signaling Diagnostics: Power health monitoring, fault detection, event indication Environmental Conditions Operating Temperature: 0°C to +60°C Storage Temperature: –40°C to +85°C Humidity: 5% to 95% non-condensing Mechanical Specifications Dimensions (D × W × H): 40.13 × 3.56 × 21.84 cm Weight: 0.71 kg Form Factor: Eurocard module Mounting: Compatible with INFI-90 Module Mounting Unit (MMU) Front Panel Features Power status indicator Fault and alarm LEDs Module health indication Application Areas The ABB IMPMON01 is used in systems where continuous power supervision is essential: Power generation plants with critical control infrastructure Oil and gas processing facilities Petrochemical and refining operations Industrial automation systems requiring high availability FAQ What does the IMPMON01 monitor?It supervises system voltage levels, including logic and analog supplies, and reports abnormal conditions. How are faults communicated?Faults are indicated through system communication as well as hardware outputs such as alarm and status signals. Can it monitor cooling system status?Yes, it includes inputs for monitoring fan operation and related conditions. Why is this module important?It helps prevent system failures by detecting power issues early and enabling timely corrective actions.
$200.00 $100.00
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ABB ABB 6637830G1 Bus Monitoring Module PCBA
Product Overview The ABB 6637830G1 is a rack-mounted bus monitoring PCBA designed for ABB Bailey Infi 90 and Net 90 distributed control environments. It is engineered to supervise communication integrity across system backplanes, enabling early detection of transmission errors, bus contention, and signal degradation. This module operates as a passive diagnostic node within the control architecture, ensuring that communication health across connected controllers and I/O subsystems remains stable and traceable. It is commonly deployed alongside power entry assemblies such as IEPEP03, IEPEP04, and NPEP05. Core Functions Continuous monitoring of Infi 90 system communication bus activity Detection of abnormal traffic patterns and signal interruptions Support for system-level diagnostic reporting Assists maintenance teams in isolating bus-related faults Enhances overall network reliability and uptime Technical Specifications Parameter Description Product Type Bus Monitoring PCBA Module System Compatibility ABB Bailey Infi 90 / Net 90 Function Bus traffic supervision and diagnostics Installation Rack-mounted (backplane integration) Supported Channels 32–128 channels (configuration dependent) Operating Temperature -20°C to +60°C Protection Class IP20 Interface Type System backplane communication bus Power Supply Supplied via rack backplane (low-power PCBA design) Dimensions 152 mm × 90 mm × 76 mm Weight 0.64 kg Compatible Units IEPEP03, IEPEP04, NPEP05 System Role The module does not directly control field devices; instead, it functions as a diagnostic observer within the control rack. By analyzing real-time communication flow, it helps identify latency, signal collision, or intermittent bus failure conditions before they impact process control performance. Application Areas Power generation control systems Oil and gas process automation Large-scale industrial DCS installations Turbomachinery monitoring environments Legacy ABB Bailey Infi 90 system maintenance and upgrades FAQ Q1: Does this module execute control actions?No. It is strictly a monitoring and diagnostic module and does not perform control logic execution. Q2: Is it compatible with modern ABB systems?It is primarily designed for ABB Bailey Infi 90 / Net 90 systems and is not natively compatible with newer AC 800M architectures. Q3: What is the main benefit of using this module?It improves system reliability by providing early detection of communication faults within the control rack.
$200.00 $100.00
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Bently Nevada Bently Nevada 330101‑00‑25‑10‑02‑05 | 3300 Series | Proximity Probe Assembly
Overview The 330101‑00‑25‑10‑02‑05 proximity probe assembly is part of Bently Nevada’s 3300 XL 8 mm transducer family, engineered for precise vibration and shaft position measurement in rotating machinery. This probe and extension cable set is designed for compatibility with the 3300 XL system architecture and supports high‑accuracy condition monitoring in demanding industrial environments. Design and Performance This model incorporates an 8 mm probe tip and a factory‑matched extension cable to ensure consistent linearity and measurement accuracy. The assembly adheres to API 670 requirements for mechanical configuration, linear range, and temperature stability. Its rugged construction supports long‑term operation in harsh conditions, including wide temperature swings and high mechanical stress. The probe system is fully interchangeable with other 3300 XL 8 mm components, eliminating the need for individual calibration and simplifying maintenance workflows. The ClickLoc‑style coaxial connectors provide secure, vibration‑resistant connections during installation and operation. Technical Specifications Parameter Specification Model 330101‑00‑25‑10‑02‑05 Product Type Proximity Probe + Extension Cable Probe Tip Diameter 8 mm Cable Length 1.0 m (extension cable) System Compatibility 3300 XL 8 mm Proximity Transducer System Linear Range Typically 2 mm (dependent on system configuration) Frequency Response Suitable for high‑speed rotating equipment Temperature Range –51°C to +177°C Connector Type Miniature coaxial (ClickLoc) Compliance API 670 (4th Edition) Dimensions 110 × 1.5 × 1.2 cm Weight 0.23 kg Origin USA HS Code 8537101190 Product Status Active Functional Characteristics Stable displacement and vibration measurement for fluid‑film bearing machines Armored and unarmored cable options for different installation environments High immunity to electrical noise and mechanical interference Backward compatibility with selected 3300 5 mm and 8 mm components No field calibration required due to matched probe‑cable‑driver configuration Application Scenarios Turbomachinery vibration monitoring Shaft position and radial displacement measurement Condition monitoring systems in power generation, petrochemical, and refining industries Machinery protection systems requiring API 670 compliance Model Comparison Model Probe Tip Cable Length Compatibility Typical Use 330101‑00‑25‑10‑02‑05 8 mm 1.0 m 3300 XL Standard vibration monitoring 330101‑00‑12‑10‑02‑05 8 mm 5 m 3300 XL Long‑distance installations 330103‑00‑04‑10‑02‑05 5 mm 1 m 3300 XL Tight‑clearance machinery FAQ Q: Does this probe require calibration before installation? A: No. The 330101‑00‑25‑10‑02‑05 is factory‑matched with its cable and driver, eliminating field calibration. Q: Can it be used with older 3300 series systems? A: Yes, it supports backward compatibility with selected 5 mm and 8 mm components. Q: Is the probe suitable for high‑temperature environments? A: Yes. It is rated for continuous operation up to +177°C.
$200.00 $100.00
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EMERSON Emerson EPRO Series PR9376/010-001 Vibration Monitoring Module
Overview The Emerson PR9376/010-001 EPRO Module is a precision vibration monitoring device engineered for critical rotating machinery. It provides accurate non-contact measurements using eddy current technology, enabling early detection of imbalance, misalignment, and bearing wear. This module is designed to improve predictive maintenance strategies and extend equipment life in demanding industrial environments. Technical Specifications Parameter Details Model PR9376/010-001 Product Type EPRO Vibration Monitoring Module Technology Eddy current proximity probe Measurement Vibration and shaft displacement System Compatibility DCS and Emerson AMS Suite Communication Ethernet router Dimensions 4.4 × 17.8 × 11.4 cm Weight 0.66 kg Origin USA HS Code 8537101190 MOQ 1 Condition Brand New Operating Environment Extreme temperatures and high vibration levels Application System DCS (Distributed Control System) Functional Highlights High-precision vibration and displacement monitoring for rotating machinery. Eddy current technology ensures non-contact measurement, reducing sensor wear. Rugged design for reliable operation under harsh industrial conditions. Seamless integration with Emerson AMS Suite for unified condition monitoring. Supports predictive maintenance strategies to minimize downtime. Application Scenarios Turbine vibration monitoring in power generation plants Compressor and pump health diagnostics in chemical processing Motor and gearbox condition monitoring in manufacturing facilities Oil & gas machinery reliability improvement FAQ Q: What type of measurement technology does the PR9376/010-001 use? A: It uses eddy current proximity sensing for non-contact vibration and displacement monitoring. Q: Is this module compatible with Emerson AMS Suite? A: Yes, it integrates seamlessly with AMS Suite for predictive maintenance and diagnostics. Q: What industries typically use this module? A: Oil & gas, power generation, chemical processing, and heavy manufacturing.
$200.00 $100.00
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EMERSON Emerson PR6424/002‑031 CON041 EPRO Monitoring Module
Overview The PR6424/002‑031 (CON041) module is part of Emerson’s EPRO vibration monitoring line, designed for precise non‑contact displacement and vibration measurement on critical rotating equipment. It integrates into condition monitoring and protection systems, providing stable, high‑resolution sensor signals for turbines, compressors, generators, and other high‑value rotating assets. Functional Characteristics This module operates as an eddy‑current proximity probe interface, converting raw sensor signals into conditioned outputs suitable for diagnostic and protection systems. Its internal circuitry ensures linear response, low noise, and stable operation across a wide temperature range. The design supports long‑term reliability in harsh industrial environments. Key Features High‑accuracy eddy‑current vibration and displacement measurement Compatible with EPRO/PR642x proximity probe systems Stable signal conditioning for continuous monitoring applications Robust mechanical design for demanding industrial environments Suitable for integration with Emerson and third‑party monitoring platforms Compact form factor for efficient panel or rack installation Technical Specifications Parameter Specification Model / Part Number PR6424/002‑031 / CON041 Product Type Eddy‑Current Vibration Monitoring Module Product Line EPRO Dimensions 17 × 14 × 3 cm Weight 0.34 kg Measurement Type Non‑contact displacement / vibration Sensor Compatibility PR642x proximity probe series Operating Temperature −35°C to +85°C (typical for EPRO modules) Output Signal Conditioned voltage output for monitoring systems Housing Material Industrial‑grade aluminum and polymer HS Code 8537101190 Country of Origin USA System Type DCS / Condition Monitoring Application Scenarios Vibration and displacement monitoring on rotating machinery Predictive maintenance systems in power generation and petrochemical plants Integration into machinery protection systems for critical assets Upgrades or replacements in existing EPRO/PR642x installations Additional Notes The module is engineered for long‑term stability and minimal drift, ensuring consistent measurement accuracy. It is commonly used in systems requiring early fault detection, such as bearing wear, shaft misalignment, and rotor instability. FAQ Q: Which sensors are compatible with this module A: It is designed for use with the PR642x series eddy‑current proximity probes. Q: Can it be used with non‑Emerson monitoring systems A: Yes. The conditioned output is compatible with many third‑party vibration monitoring platforms. Q: Does this module include the probe and extension cable A: No. Probes and cables must be ordered separately.
$200.00 $100.00
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Bently Nevada Bently Nevada 330101‑00‑13‑15‑12‑CN 3300 XL Proximity Probe
Overview The Bently Nevada 330101‑00‑13‑15‑12‑CN proximity probe is part of the 3300 XL 8 mm transducer family, engineered for precise non‑contact measurement of shaft vibration and displacement in rotating machinery. Its compact mechanical design and stable electrical characteristics make it suitable for installations where space is limited but high‑accuracy monitoring is required. Design and Construction This probe uses a 3/8‑24 UNF threaded body and includes a 1.5‑meter molded cable equipped with a miniature coaxial ClickLoc connector. The ClickLoc mechanism prevents accidental loosening and maintains shielding integrity, ensuring consistent signal transmission even in electrically noisy environments. The 330101‑00‑13‑15‑12‑CN features a non‑armored configuration with a short case length, allowing installation in tight mounting locations without compromising measurement accuracy. The FluidLoc cable design provides additional protection against moisture ingress and mechanical stress. Technical Specifications Parameter Specification Model 330101‑00‑13‑15‑12‑CN Probe Type 3300 XL 8 mm Proximity Probe Thread Type 3/8‑24 UNF Unthreaded Length 0.0 in Case Length 1.3 in Cable Length 1.5 m Connector Miniature coaxial ClickLoc Cable Type FluidLoc Measurement Type Static position and dynamic vibration System Compatibility 3300 XL Proximity Transducer System Weight 0.06 kg Dimensions 1.8 × 1.6 × 123 cm HS Code 8537101190 Origin USA Minimum Order 1 unit Product Status Active System TSI Performance Characteristics The probe generates a voltage output proportional to the distance between the probe tip and the target surface, enabling accurate gap and vibration measurements. Its compact geometry supports installation in restricted spaces while maintaining the durability and performance expected from the 3300 XL series. The 330101‑00‑13‑15‑12‑CN is suitable for hazardous‑area installations and provides stable long‑term performance in environments with high electromagnetic interference. Application Scenarios Turbine, compressor, and generator vibration monitoring Shaft displacement and axial position measurement Installations requiring compact probe geometry Predictive maintenance and machinery protection systems High‑EMI industrial environments requiring stable signal transmission FAQ Q: What makes this probe suitable for tight installations Its short case length and non‑armored design allow mounting in confined spaces without affecting measurement accuracy. Q: Is this probe compatible with standard 3300 XL extension cables Yes. It integrates seamlessly with the full 3300 XL transducer system. Q: Does the FluidLoc cable improve reliability Yes. It enhances moisture resistance and protects the cable from mechanical stress.
$200.00 $100.00
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Bently Nevada Bently Nevada 330104‑00‑05‑05‑11‑05 3300 XL Proximity Probe
Overview The Bently Nevada 330104‑00‑05‑05‑11‑05 proximity probe is part of the 3300 XL 8 mm transducer family, engineered for high‑accuracy non‑contact measurement of shaft vibration and displacement in rotating machinery. Its armored construction and enhanced mechanical durability make it suitable for harsh industrial environments where long‑term reliability is essential. Design and Construction This probe features an M10×1 threaded housing and a molded PPS sensing tip. The PPS material provides increased encapsulation thickness around the coil, improving resistance to mechanical impact and environmental stress. The probe includes a 1.0‑meter FluidLoc cable equipped with an 11‑series miniature coaxial ClickLoc connector and a connector protector to maintain shielding integrity. The 330104‑00‑05‑05‑11‑05 is designed for seamless integration with the 3300 XL Proximitor Sensor and extension cables, forming a complete eddy‑current transducer system capable of delivering stable, repeatable measurements. Technical Specifications Parameter Specification Model 330104‑00‑05‑05‑11‑05 Probe Type 3300 XL 8 mm Proximity Probe Thread Type M10×1 Minimum Case Length 50 mm Cable Length 1.0 m (FluidLoc armored cable) Connector 11‑series miniature coaxial ClickLoc Tip Material PPS (Polyphenylene Sulfide) Measurement Type Static position and dynamic vibration System Compatibility 3300 XL Proximity Transducer System Backward Compatibility Non‑XL 5 mm and 8 mm probes (with proper bend radius) Certifications CSA, ATEX, IECEx Weight 0.55 kg Dimensions 20.5 × 22.4 × 3.3 cm HS Code 8537101190 Origin USA Minimum Order 1 unit Product Status Active System TSI Performance Characteristics The probe is part of the 3300 XL platform, which eliminates the need for matched calibration between probes, cables, and Proximitor sensors. This ensures consistent linearity, temperature stability, and measurement accuracy across the entire system. The armored cable design enhances mechanical protection, making the probe suitable for high‑vibration or physically exposed installations. When installed with the proper minimum bend radius, the probe can be interchanged with non‑XL 3300 series components without compromising performance. Application Scenarios Turbine and compressor vibration monitoring Shaft displacement and axial position measurement High‑vibration industrial environments requiring armored probes API‑compliant machinery protection systems Installations requiring backward compatibility with legacy 3300 components FAQ Q: Can this probe replace older 3300 series 5 mm or 8 mm probes Yes. It is backward‑compatible when installed with the correct cable bend radius. Q: What advantages does the PPS tip provide The thicker encapsulation improves durability and protects the sensing coil from mechanical damage. Q: Does the probe require matched calibration with its Proximitor sensor No. The 3300 XL system is designed for full interchangeability without matched component sets.
$200.00 $100.00
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Bently Nevada Bently Nevada 330101‑00‑24‑10‑02‑00 3300 XL Proximity Probe
Overview The Bently Nevada 330101‑00‑24‑10‑02‑00 proximity probe is part of the 3300 XL 8 mm transducer family, designed for precise non‑contact measurement of shaft vibration and position in rotating machinery. Its mechanical robustness and stable electrical characteristics make it suitable for long‑term use in demanding industrial environments. Design and Construction This probe uses a 3/8‑24 UNF threaded body and includes a 1.0‑meter molded cable terminated with a miniature coaxial ClickLoc connector. The connector design prevents accidental loosening and maintains shielding integrity, ensuring consistent signal transmission to the Proximitor sensor. Compared with 5 mm probes, the 330101‑00‑24‑10‑02‑00 features a thicker encapsulation and reinforced case structure, improving durability in high‑vibration or mechanically exposed installations. The probe is available in armored and unarmored configurations, offering flexibility for different mounting and routing requirements. Technical Specifications Parameter Specification Model 330101‑00‑24‑10‑02‑00 Probe Type 3300 XL 8 mm Proximity Probe Thread Type 3/8‑24 UNF Cable Length 1.0 m Connector Miniature coaxial ClickLoc Measurement Type Static position and dynamic vibration System Compatibility 3300 Proximity Transducer System Weight 0.06 kg Dimensions 1.8 × 1.6 × 123 cm HS Code 8537101190 Origin USA Minimum Order 1 unit Product Status Active System TSI Performance Characteristics The probe produces a voltage output proportional to the distance between the probe tip and the target surface, enabling accurate displacement and vibration measurements. It is suitable for fluid‑film bearing machines and supports Keyphasor reference and speed measurement applications. The 330101‑00‑24‑10‑02‑00 is fully interchangeable with other 3300 XL components and backward‑compatible with non‑XL 5 mm and 8 mm probes, eliminating the need for matched calibration and simplifying system maintenance. Application Scenarios Radial vibration and shaft displacement monitoring Axial position measurement on turbines and compressors Keyphasor reference signal acquisition Speed measurement on rotating machinery High‑vibration industrial environments requiring durable probe construction FAQ Q: Is this probe compatible with older 3300 series components? A: Yes. It can be used with non‑XL 5 mm and 8 mm probes and cables without requiring matched calibration. Q: What type of machines typically use this probe? A: Turbines, compressors, pumps, and other rotating equipment with fluid‑film bearings. Q: Does the probe require a specific Proximitor sensor? A: For optimal accuracy, it should be paired with a 3300 XL Proximitor sensor.
$200.00 $100.00
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Bently Nevada Bently Nevada 330730‑040‑02‑00 3300 Series Extension Cable
Overview The Bently Nevada 330730‑040‑02‑00 extension cable is designed for use within the 3300 proximity transducer system, providing reliable signal transmission between proximity probes and associated monitoring hardware. This model supports 11 mm transducer configurations and is suitable for applications requiring extended linear measurement ranges. Design and Construction The cable is manufactured to maintain stable electrical characteristics across its entire length, ensuring accurate displacement and vibration data. With a 2‑meter cable length, the 330730‑040‑02‑00 offers flexibility for installations where probe‑to‑monitor distances vary. Its construction includes anti‑static protection on terminals and connectors, reducing the risk of electrostatic discharge during installation and maintenance. The cable is intended for use with the 3300 XL platform and is not interchangeable with older 7200‑series components without a full system upgrade. Its mechanical design supports straightforward routing in confined spaces, aided by its lightweight 0.06 kg profile. Technical Specifications Parameter Specification Model 330730‑040‑02‑00 Cable Type Extension Cable for 3300 Proximity Transducer System Length 2 m Transducer Compatibility 11 mm 3300 XL systems Frequency Response 0 to 8 kHz Output Sensitivity (System) 3.94 V/mm (with compatible components) Weight 0.06 kg Dimensions 1.8 × 1.6 × 123 cm HS Code 8537101190 Origin USA Minimum Order 1 unit Product Status Active System TSI Performance Characteristics The 330730‑040‑02‑00 supports both static and dynamic measurements, making it suitable for axial position, radial vibration, and Keyphasor reference applications. Its electrical performance is optimized for the extended linear range of 11 mm systems, offering greater measurement flexibility compared to standard 8 mm configurations. The cable does not require agency approvals but is built to Bently Nevada’s established quality standards for industrial monitoring components. Application Scenarios Axial position monitoring on large rotating machinery Keyphasor signal transmission Radial vibration measurement on fluid‑film bearing equipment Installations requiring extended linear range performance System upgrades from legacy transducer platforms to 3300 XL FAQ Q: Can this cable be used with 7200‑series transducers? A: No. A full upgrade to the 3300 XL system is required for compatibility. Q: What measurement types does this cable support? A: It supports displacement, vibration, and Keyphasor reference signals when used with compatible probes and drivers. Q: Does the cable require special handling? A: While anti‑static protection is included, standard ESD precautions are recommended during installation.
$200.00 $100.00
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Bently Nevada Bently Nevada 16710‑21 | Interconnect Cable | Monitoring System Wiring
Overview The Bently Nevada 16710‑21 interconnect cable is engineered for high‑integrity signal transmission within machinery protection and condition monitoring systems. Designed to meet the electrical and environmental demands of industrial facilities, the cable ensures stable communication between sensors, modules, and monitoring hardware. Its construction supports long‑distance routing while maintaining low noise, low capacitance, and excellent shielding performance. Key Characteristics Two twisted pairs of 24 AWG stranded copper conductors Dual‑layer shielding for superior EMI/RFI protection Low capacitance and controlled impedance for accurate signal transfer Suitable for vibration monitoring, data acquisition, and protection systems Manufactured to Bently Nevada’s reliability standards for harsh environments Technical Specifications Parameter Specification Model / Part Number 16710‑21 Cable Type Interconnect / Extension Cable Conductor Type 24 AWG stranded copper Conductor Configuration 2 twisted pairs Shielding Individual foil shields + overall 90% copper braid Characteristic Impedance 100 Ω ±15% at 1 kHz Capacitance ≤35 pF/ft (between pairs) Voltage Rating 300 V AC/DC Conductor Resistance ≤28 Ω per 1000 ft Weight 0.06 kg Dimensions 1.8 × 1.6 × 123 cm System Compatibility Bently Nevada monitoring and protection systems Condition Brand New Origin USA MOQ 1 HS Code 8537101190 Functional Description The 16710‑21 cable is designed to maintain signal fidelity in electrically noisy industrial environments. Its dual‑shield architecture—foil shielding for each twisted pair combined with an overall copper braid—minimizes electromagnetic interference, ensuring accurate data transmission for vibration and condition monitoring systems. The cable’s low capacitance and controlled impedance make it suitable for high‑precision measurement circuits, where signal distortion must be minimized. Its 300 V rating and low conductor resistance support robust performance across long cable runs. Engineered for reliability, the cable withstands temperature variations, mechanical stress, and industrial contaminants. It integrates seamlessly with Bently Nevada monitoring hardware, making it a dependable choice for power generation, oil & gas, and manufacturing applications. Application Scenarios Vibration monitoring systems Machinery protection circuits Data acquisition modules Sensor‑to‑monitor interconnections Industrial environments requiring high EMI immunity FAQ Q: Is this cable suitable for long‑distance signal transmission? A: Yes. Its low capacitance and controlled impedance maintain signal integrity over extended runs. Q: What type of shielding does the cable use? A: Each twisted pair has its own foil shield, plus an overall 90% copper braid for enhanced EMI protection. Q: Can this cable be used in high‑noise environments? A: Yes. It is specifically designed for electrically noisy industrial settings.
$200.00 $100.00
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Bently Nevada Bently Nevada 21000-28-05-00-041-03-02 Vibration Monitoring Module
Overview The Bently Nevada 21000-28-05-00-041-03-02 is a precision monitoring module developed for the 21000 Series machinery protection and condition monitoring system. It is designed to process vibration and displacement signals from rotating equipment where long-term stability, signal integrity, and system reliability are critical. This module performs front-end signal conditioning for Bently Nevada transducers, ensuring accurate conversion of raw sensor signals into stable, system-ready monitoring outputs. Its electrical and mechanical design supports continuous operation in electrically noisy and mechanically demanding industrial environments. The 21000-28-05-00-041-03-02 is commonly deployed in turbine supervisory instrumentation (TSI) and machinery protection architectures, supporting early fault detection and operational safety for high-value rotating assets. Key Functional Characteristics The module incorporates precision filtering, linearization, and conditioning circuitry tailored for proximity and vibration measurement applications. Its internal architecture is optimized to maintain measurement accuracy across temperature variation, supply fluctuation, and long service intervals. Designed for seamless installation in 21000 Series racks, the module supports rapid system integration and consistent channel performance across multi-slot monitoring systems. Technical Specifications General Information Brand: Bently Nevada Series: 21000 Monitoring System Model: 21000-28-05-00-041-03-02 Module Category: Signal Conditioning / Monitoring Module Manufacturing Origin: United States Product Condition: New Electrical Specifications Sensor Compatibility: Bently Nevada proximity probes Vibration transducers (configuration dependent) Signal Processing: Built-in filtering Linearization for accurate displacement and vibration measurement Output Interface: System-standard monitoring signal compatible with 21000 racks Power Supply: Provided through 21000 Series backplane Noise Immunity: High resistance to EMI and RFI in industrial environments Mechanical Specifications Mounting Method: 21000 Series rack / module slot Enclosure: Industrial-grade metal housing Weight: 1.48 kg Dimensions: 28 × 26 × 6 cm Environmental Performance Operating Environment: Control room and industrial cabinet installation Temperature Range: Suitable for continuous industrial operation Humidity Tolerance: Designed for high-humidity plant conditions Compliance: Meets applicable international safety and EMC requirements Certifications depend on system configuration (CSA / ATEX / IECEx) System Compatibility Fully interoperable with Bently Nevada 21000 Series monitoring racks Supports proximity, velocity, or acceleration-based measurement depending on transducer selection Suitable for integration into TSI and machinery protection systems Typical Application Areas Steam and gas turbine monitoring Centrifugal and axial compressors Large industrial pumps and motors Gearboxes and generators Critical rotating machinery requiring continuous vibration or displacement supervision FAQ What type of measurements does this module support? The 21000-28-05-00-041-03-02 supports vibration and position measurements when paired with compatible Bently Nevada proximity probes or vibration sensors. Is this module interchangeable with other 21000 Series cards? Functionally similar modules may exist within the 21000 Series, but interchangeability depends on signal type, channel configuration, and system design. Always verify compatibility at the application level. Can it be used in safety-critical machinery protection systems? Yes. When installed within a properly configured 21000 Series system, the module is suitable for continuous monitoring and protection of critical rotating equipment.
$200.00 $100.00
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