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Motor Drives & Inverters
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Yokogawa AGP813-S10 High-Speed Protection Module | Yokogawa
Yokogawa AGP813-S10 High-Speed Protection Module The Yokogawa AGP813-S10, also cataloged as the AGP813-S10 High-Speed Protection Module, operates as a dedicated hardware component for turbine control and high-speed tripping logic within CENTUM VP Distributed Control Systems. It provides isolated input/output execution and precise sequence-of-events logging for event analysis. Hardware Specifications Parameter Specification ModelBrand Yokogawa AGP813-S10 Origin Japan Weight 0.28 kg (module only) Dimensions Standard FCS module form factor OperatingTemp 0 to 55 degC (ambient) PowerConsumption Max. 900 mA @ 5 VDC SystemCompatibility CENTUM VP / Field Control Station (FCS) ScanCycle High-speed: 5 ms / Basic: 10 ms VoltageInputs 4 ch (high-speed) / 6 ch (basic); 1–5 VDC; ±4 mV accuracy PulseSpeedInputs 0.5–150 Vpp; 50 Hz–25 kHz; ±1 Hz (50–2 kHz), ±0.05% (2–25 kHz) DigitalInputs 4 ch (high-speed) / 8 ch (basic); 24 VDC sink; 1 ms SOE resolution DigitalOutputs 4 ch (high-speed) / 8 ch (basic); current sinking; 100 mA max load IsolationVoltage 500 VAC for 1 min between system and field / I/O types Process Control Specifics Channel-to-channel isolation: Each I/O channel maintains galvanic separation to reduce cross-talk and electromagnetic interference in DCS loops.4-20 mA/HART loop protocol compatibility: Voltage inputs can interface with analog signal conditioning for process measurement.Cold junction compensation (CJC): Ensures accuracy of temperature-related sensor signals in control calculations. Frequently Asked Questions Q: Can the AGP813-S10 module be hot-swapped while the FCS is operating?A: No. The module requires system power down to prevent I/O latch-up or data corruption. Q: What is the maximum allowable load per digital output?A: Each channel supports up to 100 mA at 30 VDC. Exceeding this may damage the sinking circuitry. Q: Does the module support firmware upgrades in the field?A: Firmware is fixed per module; updates must be performed via Yokogawa-approved service procedures with the module offline. Field Installation Guidelines Mount the module into the designated FCS rack slot with proper alignment to backplane connectors. Ensure field signal cables (e.g., AKB337-M005/M007/M010) are routed to minimize EMI pickup; maintain separation from power lines. Connect all sensor and digital lines using shielded twisted-pair cabling; terminate shields at a single ground point. Verify that isolation barriers remain intact between field wiring and module chassis to prevent ground loops. Observe torque specifications on terminal screws to maintain reliable electrical contact without deforming connectors.
$200.00 $100.00
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Yokogawa Yokogawa AGP813 High-Speed Protection Module
Yokogawa AGP813 High-Speed Protection Module The Yokogawa AGP813, also cataloged as the AGP813 High-Speed Protection Module, operates as a dedicated hardware component for turbomachinery speed and pulse monitoring within the CENTUM VP Distributed Control System. It executes autonomous protection logic and captures high-resolution sequence-of-events independently from the main Field Control Station. Hardware Specifications Parameter Specification ModelBrand Yokogawa AGP813 Origin Japan Weight 0.28 kg (Module only), 2.0 kg (with terminal block system) Dimensions Standard CENTUM VP module footprint OperatingTemp 0 to 55 degC PowerConsumption Max 900 mA @ 5 VDC Module Type High-Speed Protection Module (Isolated) System Compatibility CENTUM VP DCS Built-in Logic Up to 100 user-definable application logic blocks Scan / Control Period High-Speed Cycle: 5 ms (Fast Scan Mode: 1.5 ms), Basic Cycle: 10 ms Sequence of Events 1 ms timestamp resolution, 256 events/2 sec Voltage Inputs 1–5 VDC, 4 channels High-Speed, 6 channels Basic; ±4 mV accuracy; 1 MΩ powered / 100 kΩ unpowered Magnetic Pickup / Pulse Inputs 0.5–150 Vpp, 4 channels; 50 Hz–25 kHz frequency; ±1 Hz (50–2 kHz), ±0.05% (2–25 kHz) Digital Inputs 24 VDC sink, 4 channels High-Speed, 8 channels Basic; ON: 18–26.4 VDC, OFF ≤5 VDC; 4.1 mA ±20% Digital Outputs Current sinking, 4 channels High-Speed, 8 channels Basic; Max load 100 mA/channel @ 30 VDC; ON voltage ≤0.3 VDC; OFF leak ≤0.1 mA Redundancy Single or dual-redundant configuration Withstanding Voltage 500 VAC / 1 min between system/field and I/O groups Process Control Technical Features Supports channel-to-channel isolation between analog and digital signals to prevent cross-talk during high-speed acquisition. Capable of 4–20 mA HART loop interfacing for field transmitters and sensors. Cold junction compensation (CJC) applied to temperature-related signal inputs to maintain ±0.1 degC accuracy in turbine monitoring. Compatible with FOUNDATION Fieldbus and Profibus PA connectivity for integrated DCS network configuration. Frequently Asked Questions Q: Can the AGP813 module operate in a hot-swap configuration?A: The module is not designed for hot-swap replacement; de-energizing the FCS slot is required prior to installation or removal. Q: What is the switching delay when operating in dual-redundant mode?A: Failover between redundant AGP813 modules occurs within a single high-speed cycle (5 ms nominal). Q: Is firmware upgrade supported on-field?A: Firmware can only be updated using a dedicated CENTUM VP engineering workstation and the module removed from high-speed control execution during the process. Field Installation Guidelines Mount the AGP813 module on standard CENTUM VP backplane; ensure proper insertion alignment to avoid bent pins. Connect all terminal block cables (AEGP1D, AKB337-M005/M007/M010) according to signal type; maintain separation between high-voltage and low-voltage wiring. Ground shielding for MPU and analog lines is recommended to prevent noise interference. Avoid tight bending radii (<50 mm) for all field wiring. Verify redundancy configuration and LED status indicators before energizing the system. Ensure ventilation and ambient temperature remain within 0–55 degC during continuous operation.
$200.00 $100.00
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Yokogawa Output Frequency Module | Yokogawa NFAF135-S50
Yokogawa NFAF135-S50 Output Frequency Module Configured for frequency pulse output generation in CENTUM VP and ProSafe-RS I/O architectures, the Yokogawa NFAF135-S50 (NFAF135-S50 Output Frequency Module) provides direct physical/electrical execution for digital frequency-based signal delivery within distributed control system I/O nodes. The module operates as a pulse and frequency output interface used to drive downstream instrumentation or process counters through isolated switching stages. Signal generation is implemented via internal timing logic synchronized to the host backplane, supporting deterministic output behavior under system scan control. Electrical separation between field terminals and internal logic is implemented through galvanic isolation barriers. The S50 suffix indicates a standardized hardware revision with environmental protection treatment and defined terminal interface configuration within Yokogawa I/O assembly families. Suffix Breakdown & Model Matrix No official public decomposition of internal model subfields for NFAF135-S50 is provided in the supplied technical data. The suffix "-S50" is treated as a manufacturing and configuration identifier indicating a specific hardware revision and protection/assembly variant within the same base module family. Hardware Specifications Parameter Specification ModelBrand Yokogawa NFAF135-S50 OperatingTemp -20 degC to 70 degC PowerConsumption < 350 mA at 5 VDC internal supply Module Type Output Frequency / Pulse Output Module Channels Typically 4 or 8 channels (system dependent) Output Range Frequency / pulse output, approx 0.1 Hz to 10 kHz (application dependent) Accuracy plus/minus 0.05 % full scale Isolation Galvanic isolation between field and logic circuits Response Time < 10 ms to 40 ms (system dependent scan cycle) DCS I/O Signal Architecture Characteristics (Yokogawa) The module is integrated into Yokogawa distributed control environments where backplane-based deterministic scheduling governs output refresh cycles. In mixed I/O nodes, channel-to-channel isolation structures reduce cross-coupling between adjacent frequency outputs. Within Yokogawa architectures, I/O segmentation may coexist with analog 4-20 mA HART loops and FOUNDATION Fieldbus segments, although this module itself is dedicated to discrete frequency generation rather than analog transmission. Internal timing alignment is derived from system scan synchronization rather than autonomous oscillator free-run control. Frequently Asked Questions Q: Can the NFAF135-S50 be hot-swapped during system operation?A: Hot-swap capability depends on the I/O base unit and system configuration. Electrical backplane isolation must be maintained before insertion or removal to prevent transient bus disturbance. Q: Does each channel operate with independent timing?A: Channel execution is generally synchronized to the system scan cycle. Independent asynchronous timing is not typically implemented at channel level. Q: What limits the maximum output frequency stability?A: Stability is governed by backplane scan resolution, internal timing clock distribution, and load characteristics on the output stage. Field Installation Guidelines Ensure all field wiring is terminated on the correct Yokogawa I/O terminal base assembly matching the NFAF135 series interface specification. Shielded cabling is required for frequency output lines in electrically noisy environments, with shield grounding performed at a single-point earth reference. Do not apply field voltage to output terminals prior to verifying backplane seating integrity. Module insertion must be performed with system power removed or under validated hot-swap procedures defined by the control system rack architecture. Maintain separation between frequency output wiring and high-energy switching conductors to reduce induced noise coupling. Terminal torque and conductor preparation shall follow standard industrial control panel wiring practices.
$200.00 $100.00
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Yokogawa AMC80 | Multiplexer Converter | Yokogawa
Yokogawa AMC80 Multiplexer Converter The Yokogawa AMC80, also cataloged as the AMC80 Multiplexer Converter, operates as a dedicated hardware component for multi-point analog signal acquisition and protocol conversion within distributed control system (DCS) networks. Hardware Specifications Parameter Specification Model Brand Yokogawa AMC80 Origin Japan Operating Temp -10 degC to 55 degC Power Consumption 15 VA to 25 VA Input Signal 4-20 mA DC, RTD, pH, Conductivity, Dissolved Oxygen Output Signal 4-20 mA DC (isolated), RS-485 Modbus RTU Response Time 1 to 2 seconds (90% response) Enclosure Rating IP65 / NEMA 4X 4-20 mA Loop Integrity and Channel Isolation The AMC80 maintains galvanic isolation between input channels and output loops to prevent ground potential rise during transient events. Channel-to-channel isolation ensures that a short circuit on one analog input does not propagate noise or voltage drift to adjacent measurement circuits. The 4-20 mA analog output supports loop-powered transmission with a maximum load resistance of 600 ohms. Wiring integrity requires shielded twisted pair cabling with shield termination at the converter end only to mitigate common-mode interference. Frequently Asked Questions Q: What is the fail-state behavior of the relay contact outputs? A: Relay outputs default to de-energized states upon power loss or internal hardware fault detection, providing dry contact signaling for external alarm or shutdown logic. Q: Does the AMC80 support hot-swapping of input modules? A: No. Power must be removed from the unit prior to any module replacement or terminal block disconnection to prevent arcing and signal line damage. Q: What is the required cable gland specification for field installation? A: Use waterproof cable glands compatible with M20 or 1/2-NPT threads, ensuring ingress protection meets IP65 requirements after tightening. Field Installation Guidelines Mount the enclosure using 2-inch pipe brackets, wall anchors, or panel cutouts as defined by the suffix code. Torque terminal screws to the manufacturer's specified range; over-tightening may strip threads or crack the terminal housing. Maintain separation between power and signal cables to reduce electromagnetic coupling. For ambient temperatures exceeding 40 degC, ensure adequate ventilation around the enclosure to avoid thermal derating of internal electronics. Verify all earth ground connections are bonded to the plant reference grid with conductors sized per local electrical codes.
$200.00 $100.00
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Yokogawa Yokogawa ABC11D Dual-Redundant Bus Converter
Yokogawa ABC11D Dual-Redundant Bus Converter The Yokogawa ABC11D-A2123, also cataloged as the ABC11D Dual-Redundant Bus Converter, operates as a dedicated hardware component for deterministic control network bridging within CENTUM VP and CENTUM CS 1000 distributed control systems. Hardware Specifications Parameter Specification Model Brand Yokogawa ABC11D Origin Japan Weight 4.2 kg Dimensions 482 mm x 310 mm x 133 mm Operating Temp 0 to 50 degC Power Consumption 110 W typical Redundancy Dual-redundant bus architecture Data Transmission Rate 1 Mbps (Fieldbus side), 10 to 100 Mbps (Control network side) Processor Status Output Contact open on CPU abnormality Contact Rating 30 V DC, 0.3 A max Power Supply Options 100-120 V AC, 220-240 V AC, 24 V DC (model dependent) Ambient Humidity 10% to 90% RH, non-condensing Corrosion Protection Optional ISA G3 conformal coating Fieldbus Protocol Integration and Channel Isolation The ABC11D supports FOUNDATION Fieldbus H1 and Profibus PA connectivity for integration with legacy field instrumentation. Channel-to-channel isolation is implemented to suppress ground loop currents and prevent cross-talk between redundant bus paths. Cold junction compensation is applied on connected analog input channels to maintain signal accuracy under variable ambient temperatures. Frequently Asked Questions Q: What is the hot-swap behavior during a redundant bus switchover? A: The module maintains active communication through the alternate bus path without interruption; no process downtime occurs. Q: Does firmware revision affect compatibility with existing CENTUM VP racks? A: Firmware must match the installed CENTUM VP base software version; mismatched revisions may block network initialization. Q: Are both power supply inputs required for full redundancy? A: Yes. Both AC or DC supply rails must be energized to sustain uninterrupted operation during a single supply failure. Field Installation Guidelines Mount the ABC11D in a standard 19-inch rack using supplied brackets. Ensure secure grounding of the rack frame to the facility earth bus. Route control network cables separately from power wiring to minimize EMI coupling. Maintain minimum bend radius of 50 mm for all shielded twisted-pair cabling. Verify shield continuity at both ends and connect shields to designated earth terminals.
$200.00 $100.00
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Yokogawa NFAF135-S00 | Frequency Input Module | Yokogawa
Yokogawa NFAF135-S00 Frequency Input Module The Yokogawa NFAF135-S00, also cataloged as the NFAF135 Frequency Input Module, operates as a dedicated hardware component for frequency measurement across 8 channels within Yokogawa STARDoM FCN/FCJ controllers. It provides direct electrical execution for acquisition of pulse, contact, and current signals in real-time data monitoring. Hardware Specifications Parameter Specification ModelBrand Yokogawa NFAF135-S00 Origin Japan Weight 0.34 kg Dimensions Standard module form factor (approx. 160 mm x 100 mm x 60 mm) OperatingTemp 0 to 50 degC PowerConsumption 0.5 A maximum (5 V DC internal supply) ChannelCount 8 frequency input channels FrequencyRange 0.1 Hz to 10 kHz Accuracy ±0.1% of reading InputSignalTypes Contact ON/OFF, voltage pulse, current pulse Isolation Channel-to-channel isolation supported FOUNDATION Field bus Connectivity The module supports 4-port FOUNDATION Fieldbus H1 communication at 31.25 kbps, enabling up to 32 devices per port depending on node power limits. Cold junction compensation (CJc) ensures stable signal measurement under variable ambient conditions. Channel-to-channel isolation mitigates cross-interference during simultaneous pulse acquisition. Frequently Asked Questions Q: Does the NFAF135-S00 support hot-swapping in live FCU systems?A: No, the module must be powered down during insertion or removal to prevent bus disruption. Q: What is the expected communication latency for all 8 channels?A: Signal processing latency is within the standard FOUNDATION Fieldbus H1 specifications and largely depends on network load and segment configuration. Q: Can the module be used in redundant configurations?A: Yes, dual-redundant setup is supported to maintain continuous fieldbus operation. Field Installation Guidelines Mount the module on the compatible STARDoM FCN/FCJ backplane following proper orientation. Ensure all field wiring is twisted and shielded; connect shield to system ground at a single point. Maintain minimum separation from high-voltage power lines to prevent electromagnetic interference. Verify input signal levels conform to module specifications before energizing. Avoid mechanical stress on connector pins during insertion and removal.
$200.00 $100.00
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Yokogawa Yokogawa ABC11D-V2121 Dual-Redundant Bus Converter
Yokogawa ABC11D-V2121 Dual-Redundant Bus Converter The Yokogawa ABC11D-V2121, also cataloged as the ABC11D Dual-Redundant Bus Converter, operates as a dedicated hardware component for connecting CENTUM CS1000 RS-485 channels to Ethernet networks within industrial DCS platforms. Hardware Specifications Parameter Specification Model Brand Yokogawa ABC11D-V2121 Origin Japan Weight 22 kg Dimensions 200 mm × 150 mm × 50 mm Operating Temp -10 to +50 degC Storage Temp -20 to +70 degC Humidity 10 to 90% RH (non-condensing) Power Supply 24 VDC, 20 W Input Interface 2 redundant RS-485 channels Input Data Rate 1 Mbps Output Interface Ethernet 100 Mbps Processor Status Output 30 V DC, 0.3 A max Mounting 19-inch Rack Mountable Process Control Connectivity Features The ABC11D-V2121 includes channel-to-channel isolation to prevent cross-interference between RS-485 lines and Ethernet output. It supports deterministic data flow across the DCS network, maintaining signal integrity for 4-20 mA HART loop and FOUNDATION Fieldbus/Profibus PA interconnections. Cold-junction compensation (CJc) is implemented to ensure stable data transmission under varying ambient temperatures. Frequently Asked Questions Q: Does the ABC11D-V2121 support hot-swap replacement?A: The device is not designed for hot-swap replacement; power must be removed prior to module installation or removal. Q: What is the failover latency between redundant buses?A: Redundant RS-485 channels switch automatically upon fault detection, typically within 10 ms to maintain continuous Ethernet output. Q: Can firmware be updated in the field?A: Firmware updates require the unit to be powered down and connected to a designated programming interface; live network updates are not supported. Field Installation Guidelines Mount the unit in a standard 19-inch rack with adequate clearance for airflow. Ensure all RS-485 lines are shielded and grounded at a single point to minimize noise coupling. Route Ethernet cables separately from high-voltage power lines to reduce EMI interference. Verify 24 VDC power polarity before energizing the module. Check environmental conditions: operating temperature must be within -10 to +50 degC and humidity below 90% RH non-condensing.
$200.00 $100.00
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Yokogawa Dual-Redundant Bus Converter | Yokogawa ABC11D-A2123
Yokogawa ABC11D-A2123 Dual-Redundant Bus Converter The Yokogawa ABC11D-A2123, also cataloged as the ABC11D Dual-Redundant Bus Converter, operates as a dedicated hardware component for connecting Human Interface Stations (HISes) on V net to other CENTUM system network buses. It provides dual-redundant communication paths and hardware failover to maintain uninterrupted data exchange between control nodes. Hardware Specifications Parameter Specification ModelBrand Yokogawa ABC11D-A2123 Origin Japan Weight 0.6 kg Dimensions Standard 19-inch rack mount OperatingTemp 0 to 50 degC PowerConsumption 100-120 VAC: 320 VA220-240 VAC: 320 VA24 VDC: 7.5 A PowerSupplyOptions 100-120 VAC, 50/60 Hz220-240 VAC, 50/60 Hz24 VDC ProcessorStatusContact Contact opens at CPU abnormality; rating 30 VDC, 0.3 A or less Redundancy Dual-redundant bus and power modules NetworkInterface V net communication to CENTUM VP/CS 3000 systems Process Control Network Features The ABC11D-A2123 implements channel-to-channel isolation for all bus lines, ensuring electromagnetic interference (EMI) from process field devices does not propagate to supervisory control nodes. Loop signals, including 4-20 mA and HART communication, are electrically segregated per channel, and the system supports cold junction compensation (CJC) for thermocouple inputs integrated within the DCS network interface. FOUNDATION Fieldbus and Profibus PA protocol signals can pass through the converter without degradation due to its galvanically isolated architecture. Frequently Asked Questions Q: What is the failover time between primary and secondary bus lines?A: Automatic switchover occurs within a single bus cycle to maintain continuous HIS connectivity. Q: Can the ABC11D-A2123 modules be hot-swapped?A: Only specific power supply and communication modules are hot-swappable; the CPU and primary bus modules require system shutdown for replacement. Q: Does the converter support firmware updates in the field?A: Firmware updates are supported via the connected CENTUM VP engineering station, with care to maintain redundant bus configuration during the procedure. Field Installation Guidelines Ensure the 19-inch rack is grounded according to industrial IEC/ISA standards before module insertion. Maintain a minimum 50 mm spacing between the ABC11D-A2123 and other heat-generating components to allow sufficient airflow. Route communication and power cables separately to prevent EMI coupling; twisted-pair shielding is recommended for V net lines. Verify power supply voltages match the specified module suffix code (100-120 VAC, 220-240 VAC, or 24 VDC) before energizing the system. Use anti-static precautions when handling modules; avoid contact with exposed connectors.
$200.00 $100.00
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Yokogawa Yokogawa AIP434 S1 Data Storage Module Hard Drive Moudle
Yokogawa AIP434 S1 Hard Disk Module Configured for persistent data buffering in CENTUM CS and CENTUM VP process control environments, the Yokogawa AIP434 S1 (AIP434 S1 Hard Disk Module) provides direct physical storage execution for configuration datasets, historical process records, and alarm/event logs. HardwareSpecifications Parameter Specification ModelBrand Yokogawa AIP434 S1 Origin Not specified Weight Approx. 1.3 kg Dimensions Approx. 5.1 cm × 25.4 cm × 25.4 cm StorageType Industrial hard disk module OperatingVoltage 24 VDC SystemCompatibility Yokogawa CENTUM CS / CENTUM VP Installation Form Rack-mounted module Process Control Data Storage Architecture The Yokogawa AIP434 S1 is aligned with DCS-level storage interfacing, supporting data exchange patterns consistent with 4-20 mA HART loop environments and higher-layer process data abstraction. Within CENTUM architectures, storage modules of this class interface with system controllers where FOUNDATION Fieldbus and PROFIBUS-based subsystems aggregate process variables, requiring synchronized logging of time-stamped data streams. Channel-to-channel isolation principles are applied at the system integration level to prevent data corruption between parallel acquisition paths. Storage execution is optimized for deterministic write cycles associated with alarm/event recording and batch history retention. Frequently Asked Questions Q: Does the module support hot-swap replacement under system power?A: The module is described as hot-swappable; however, actual replacement behavior depends on CENTUM system redundancy configuration and controller-level disk arbitration logic. Q: What type of system data is written to the hard disk module?A: It stores process history, alarm logs, system configuration datasets, and event records generated by CENTUM CS / CENTUM VP controllers. Q: Is there a defined data throughput limitation for backplane transfer?A: No explicit throughput specification is provided; transfer rate is governed by the host DCS backplane architecture and controller scheduling cycle. FieldInstallationGuidelines The module shall be installed in a compatible Yokogawa rack enclosure with verified backplane alignment. Ensure all edge connectors are fully seated before applying 24 VDC supply. Avoid mechanical stress on the drive carrier during insertion or removal. Signal and power cabling shall be separated from high-noise conductors to maintain data integrity within the rack assembly. Grounding shall follow the cabinet equipotential bonding scheme to minimize transient coupling across storage interfaces.
$200.00 $100.00
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Yokogawa Yokogawa AAI835-S00 AC Current Converter | 4-20mA Signal Isolation
Product Description The Yokogawa AAI835-S00 is a precision AC current converter designed for robust signal isolation and standardized current conversion in demanding industrial environments. It delivers reliable conversion from AC inputs to DC current outputs, making it ideal for process monitoring, power analysis, and motor testing. Its compact design and high accuracy make it suitable for both energy monitoring systems and heavy industrial equipment. Key Technical Specifications: Input Range: AC 0-5A, 50/60Hz Output Signal: DC 4-20mA, 2-wire Accuracy: ±0.1 percent of full scale at 23 degrees C ±5 degrees C Isolation Voltage: 2500V AC for 1 minute between Input, Output, and Power Operating Temperature: -10 degrees C to +55 degrees C Response Time: Less than or equal to 250 milliseconds for 0 to 90 percent step change Power Supply: 20-130V AC/DC or 15-30V DC Compliance Voltage: Minimum 7.5V DC at 20mA output Frequency Characteristics: 45-65Hz with additional error within ±0.1 percent Weight: 1.00 lbs Applications:The AAI835-S00 is suited for: Industrial motor drive testing and diagnostics Renewable energy power generation monitoring Heavy machinery energy consumption measurement Process control and automation requiring high-precision AC to DC conversion FAQ: Q: Can this converter handle both 50Hz and 60Hz inputs?A: Yes, the AAI835-S00 supports AC input frequency ranges from 50Hz to 60Hz. Q: Is the output compatible with standard 4-20mA systems?A: Yes, the device provides a 2-wire DC 4-20mA output fully compatible with standard industrial control systems. Q: What is the isolation voltage rating?A: It provides 2500V AC isolation between input, output, and power terminals for one minute. Similar Models Comparison:Compared with AAI835-S01, the S00 model has a slightly faster response time and broader power supply tolerance, making it preferable for applications with variable voltage inputs.
$200.00 $100.00
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Yokogawa Yokogawa SAI143-S33 Analog Input Module High Precision Converter
Product Description OverviewThe Yokogawa SAI143-S33 is a high-precision analog input module designed for reliable DC millivolt signal conversion and isolation. It is widely applied in chemical process weighing, battery voltage monitoring, and tension detection in rolling mills. The module converts low-level mV/VDC input signals into standard 4-20mA or 1-5V DC output with excellent stability. Key Features Supports DC input signals ranging from ±20mV to ±10V across 10 selectable ranges Switchable output: 4-20mA or 1-5V DC High accuracy with minimal temperature drift ensures precise measurement in industrial environments Isolation between input, output, and power up to 1500V AC Superior common mode rejection of 140dB at 50/60Hz Fast response time: 0 to 90% in less than 300ms Flexible power supply: 20-130V AC/DC or 15-30V DC Wide operating temperature: -20°C to 65°C Technical Specifications Parameter Specification Input Signal DC ±20mV to ±10V, 10 ranges Output Signal 4-20mA or 1-5V DC (selectable) Accuracy ±0.05% Full Scale at 23C ±2C Temperature Drift ±0.0075% Full Scale per °C Isolation 1500V AC (Input/Output/Power) Common Mode Rejection 140dB at 50/60Hz Response Time ≤300ms (0 to 90% step) Power Supply 20-130V AC/DC or 15-30V DC Ambient Temperature -20C to 65C Applications Precision weighing and batching in chemical processing Battery voltage monitoring in production lines Tension measurement and control in steel rolling mills FAQ Q: Can this module handle multiple input ranges?A: Yes, the SAI143-S33 supports 10 different DC input ranges from ±20mV up to ±10V, configurable for various sensors. Q: Is the output configurable?A: Yes, users can select either 4-20mA or 1-5V DC output depending on system requirements. Q: What environments can it operate in?A: It is suitable for industrial conditions with temperatures from -20°C to 65°C and provides robust isolation against electrical noise. Similar Models Comparison SAI142 Series: Lower accuracy, faster response, limited input range SAI144 Series: Extended temperature range, higher input voltage tolerance
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/53 Overspeed Protection Module
Product Description The 3500/53 Overspeed Protection Module (134611-01) is engineered for high-reliability rotational safety control in critical machinery environments. It is deployed within the Bently Nevada 3500 platform to deliver independent overspeed detection, redundant speed evaluation, and direct trip actuation for turbine and compressor protection systems. The module is designed to operate as a dedicated safety layer, executing fast response logic when rotational speed exceeds defined thresholds. Protection and Logic Architecture This module implements dual-channel safety processing with independent evaluation paths: Two isolated speed measurement channels Primary overspeed shutdown function Secondary backup overspeed verification path Configurable voting logic: 1-out-of-2 (1oo2) trip logic 2-out-of-2 (2oo2) trip logic for stricter validation Fail-safe design for turbine trip circuit integration The architecture is intended to minimize false trips while maintaining deterministic shutdown behavior under fault conditions. Input Characteristics Two independent measurement channels Sensor compatibility: Eddy current proximity probes (preferred for full dynamic range) Magnetic pickups (suitable for high-speed applications, reduced low-speed fidelity) Input voltage range: +10 V to –24 V DC Input impedance: 20 kΩ Frequency response: up to 20 kHz depending on transducer selection Low-speed detection: Proximity probes support near-zero operation Magnetic pickups limited at low rotational speeds Trip and Output Functions Dual high-speed, normally energized trip relays Direct interface for turbine trip solenoid circuits Independent relay outputs for redundancy Front-panel status indicators: System OK Communication activity (TX/RX) Bypass condition Active trip status Additional outputs include: Buffered speed signal per channel Conditioned Keyphasor-style reference output to rack backplane Performance Characteristics Overspeed trip response time: typically < 40 ms (configuration dependent) Speed measurement accuracy: ±0.1% of full-scale range Measurement repeatability: ±0.05% These values support deterministic shutdown performance in high-energy rotating equipment. Electrical and Environmental Data Typical power consumption: 6.0 W Operating temperature range: –30 °C to +65 °C Relative humidity: up to 95% non-condensing Compliance and certification: API 670 compliant architecture CE and CSA certified SIL-2 capable when installed per system requirements Application Areas Steam turbine overspeed protection Gas turbine safety shutdown systems Industrial compressor protection Turboexpander monitoring systems High-speed rotating machinery safety loops FAQ Q1: Is this module suitable for safety shutdown applications?Yes, it is designed specifically for overspeed trip functions in turbine safety systems. Q2: Can it operate in redundant voting configurations?Yes, it supports both 1oo2 and 2oo2 voting logic schemes. Q3: Does it require proximity probes?Proximity probes are recommended for full-range performance, especially near zero speed detection.
$200.00 $100.00
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EMERSON Emerson 1C31199G04 Ovation Servo Drive | Motion Control Module
Overview The Emerson DeltaV S-series Foundation Fieldbus subsystem represents a transition from traditional analog signaling to a high-density digital communication architecture. The 1C31179G02 (1C31179G02) and associated 1C31227G01 (1C31227G01) power components provide the physical and logical interface between the control network and field-level instrumentation. By utilizing the H1 protocol, this hardware allows for bidirectional communication, enabling the controller to access advanced instrument variables, configuration data, and predictive diagnostics that are inaccessible via standard 4-20mA loops. Engineering Specifications The following data defines the operational parameters for the S-series H1 I/O interface and its integrated power delivery system: Module Type: S-series FOUNDATION Fieldbus H1 Interface Interface Capacity: 2-port or 4-port options depending on carrier configuration H1 Segment Power: Integrated segment power with current limiting protection Communication Rate: 31.25 kbit/s per H1 segment Input Voltage Requirement: 24VDC nominal (applied via redundant power bus) Fieldbus Signal: Manchester Encoded digital signaling Physical Protection: Integrated hardware keys for correct terminal block alignment Redundancy Support: 1:1 hardware redundancy for increased loop availability Operating Temperature: -40 to +70 degrees Celsius Storage Temperature: -40 to +85 degrees Celsius Relative Humidity: 5 to 95 percent non-condensing Isolation: 1500VDC isolation between field and logic circuits Shock and Vibration: Compliant with IEC 60068 standards for industrial environments System Capabilities and Functional Advantages Advanced Segment Management The 1C31179G02 (1C31179G02) facilitates high-speed synchronous control, allowing control loops to be executed at the field device level (Control in the Field). This reduces the processing load on the central DeltaV controller and minimizes network traffic latency. Simplified Infrastructure By consolidating multiple instrument signals onto a single twisted-pair cable, the system significantly reduces total cable footage and terminal density. The integrated power supply for the H1 segments eliminates the need for external power conditioners, streamlining cabinet space. Proactive Maintenance and Diagnostics The S-series hardware provides comprehensive segment health monitoring. It detects physical layer issues such as noise, short circuits, or low voltage before they lead to a process trip, aligning with modern predictive maintenance strategies. Common Deployment Applications Hazardous Area Instrumentation Ideal for large-scale refinery or chemical plant deployments where Foundation Fieldbus simplifies wiring for intrinsically safe or non-incendive loops. Critical Control Loops Utilized in power generation and pharmaceutical manufacturing where redundant H1 cards and integrated segment diagnostics ensure the highest level of uptime. Technical FAQ How does the 1C31179G02 maintain loop integrity during hardware failure? When configured in a redundant pair, the standby H1 card monitors the primary unit. If a fault is detected, the standby assumes control of the segments without a bump in the process signal or loss of communication with field devices. What is the benefit of integrated power on the 1C31227G01? Integrated power conditioners simplify the H1 segment design by removing the need for separate bulk power supplies and complex impedance matching hardware. It provides a cleaner installation and reduces potential points of failure.
$200.00 $100.00
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EMERSON Emerson Ovation 1C31201G01 Servo Drive Module High-Precision Control
Product Description OverviewThe Emerson Ovation 1C31201G01 is a servo drive personalization module built for high-precision control of servomechanisms. Designed to provide reliable feedback for position and speed control, it integrates seamlessly with the Ovation Distributed Control System (DCS) to deliver consistent performance in industrial automation environments. Key Features High-accuracy servo control with built-in readback monitoring Supports 1 kHz LVT output at 19 VPP for responsive control Six independent output channels for versatile configuration Robust design with 1000 VAC/DC isolation between channels and channel-to-logic Advanced rejection of electrical noise: 60 dB normal-mode, 120 dB common-mode Lightweight, low-power design: 2.5 W typical main power; 3.38 W maximum Auxiliary power supply: 24 VDC, supporting up to 8 inputs at 20 mA each Wide operating temperature: 0 °C to 60 °C; storage −40 °C to 85 °C Supports relative humidity up to 95% non-condensing Technical Specifications Parameter Specification Model Number 1C31201G01 Module Type Servo Drive Personalization Module Manufacturer Emerson Channels 6 Output 1 kHz LVT, 19 VPP Operating Temperature 0 °C to 60 °C Storage Temperature −40 °C to 85 °C Humidity 0–95% non-condensing Main Power Consumption 2.5 W typical, 3.38 W maximum Auxiliary Power Consumption 3.84 W typical (8 inputs @ 20 mA each) Auxiliary Power Supply Voltage 24 VDC Isolation 1000 VAC/DC channel-to-channel and channel-to-logic Noise Rejection Normal-mode: 60 dB at 50/60 Hz; Common-mode: 120 dB at DC, powerline frequency, and harmonics ApplicationsIdeal for precise motion control in turbines, pumps, and other servo-driven industrial equipment. The module ensures accurate speed and position feedback for critical process automation. FAQQ: How many channels does the module provide?A: The 1C31201G01 module supports 6 independent channels. Q: What type of output does it support?A: It provides 1 kHz LVT output at 19 VPP for responsive control feedback. Q: Can this module operate in high-humidity environments?A: Yes, it supports 0–95% non-condensing humidity. Similar Models Comparison 1C31200G01: Standard servo drive module with fewer channels 1C31202G01: Extended temperature range and higher channel count for complex automation systems
$200.00 $100.00
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EMERSON Emerson Ovation 1C31199G01 High-Speed Analog Input Module Voltage
Product Description OverviewThe Emerson Ovation 1C31199G01 is a precision high-speed analog input module engineered for accurate voltage measurements in industrial systems. It is designed to integrate seamlessly with the Ovation Distributed Control System (DCS) for real-time data acquisition and efficient signal processing. CE-certified, this module complies with European safety and performance standards. Key Features Supports a variety of voltage input ranges: ±1 V, ±250 mV, and ±100 mV High-speed data acquisition optimized for real-time monitoring Built-in surge protection safeguards input circuits Integrates with Electronics Modules for high-resolution analog-to-digital conversion Compatible with the Ovation system for efficient data processing and communication Optimized for precision voltage measurements in industrial environments Technical Specifications Parameter Specification Model Number 1C31199G01 Module Type High-Speed Analog Input Module Manufacturer Emerson Input Type Voltage Input Range ±1 V, ±250 mV, ±100 mV Resolution 14-bit Sampling Rate 50–60 samples per second Temperature Accuracy ±0.5 °C (0 °C to 70 °C) / ±0.9 °F (32 °F to 158 °F) Measurement Sampling Typical 300 ms, Maximum 600 ms Power Supply 24 VDC main and auxiliary backplane supply, field-powered current loops for select configurations Compliance CE Certified Origin USA ApplicationsIdeal for precision voltage measurement in industrial automation, power generation, and process control systems. The 1C31199G01 module ensures fast, accurate, and secure analog data acquisition for critical applications. FAQQ: What voltage ranges does the module support?A: The module accepts ±1 V, ±250 mV, and ±100 mV inputs. Q: How fast can it sample data?A: Sampling occurs at 50–60 samples per second, with typical measurement updates every 300 ms. Q: Can it be integrated into existing Ovation systems?A: Yes, it is fully compatible and designed for seamless Ovation system integration. Similar Models Comparison 1C31198G01: Standard-speed analog input module for lower-rate acquisition 1C31200G01: Extended input range module for specialized high-precision measurements
$200.00 $100.00
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EMERSON Ovation 5X0058G01 HART Analog Input Module | Ovation Signal Converter
Product Description The Ovation 5X0058G01 module is engineered to acquire analog signals from field instruments and convert them into precise digital data for processing by distributed control systems. Supporting the HART communication protocol, it enables advanced diagnostic and real-time monitoring capabilities, ensuring robust and reliable operation in industrial environments. Technical Specifications Signal and Power Input Signal Range: 4–20 mA Operating Voltage: 220 V AC Output Frequency: 30 kHz Communication Protocol: HART7 Environmental Ratings Operating Temperature: -40°C to +70°C (-40°F to 158°F) Ingress Protection: IP65 (dust-tight and water-resistant) Current Consumption: < 10 mA Performance Features Advanced Control: Implements precise algorithms for efficient process management Reliability: Designed for continuous operation, minimizing system downtime Energy Efficiency: Optimized for minimal power use without affecting performance Extended Device Configuration: Full HART7 support for on-the-fly monitoring and adjustment Rugged Construction: Resistant to harsh industrial conditions Installation: Panel-mount format for easy setup and maintenance Applications Process monitoring in chemical, petrochemical, and power generation plants Integration with Ovation DCS for analog-to-digital signal conversion Industrial diagnostics and real-time control systems FAQ Q: Is the 5X0058G01 compatible with all HART devices?A: Yes, it supports the HART7 protocol, ensuring wide compatibility with standard field devices. Q: Can this module withstand outdoor or harsh environments?A: Yes, its IP65 rating provides protection against dust and water ingress. Q: What is the maximum operating temperature?A: It operates safely up to 70°C (158°F). Q: Are there similar modules with higher input resolution?A: The 5X0059G01 module offers extended input ranges and higher sampling precision for specialized applications.
$200.00 $100.00
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EMERSON Emerson Ovation 1C31189G01 | 8-Channel Speed Detector Module
Product Description OverviewThe 1C31189G01 from Emerson Ovation is an 8-channel Speed Detector Interface Module designed for precise rotational speed monitoring in critical industrial systems. This personality module supports both low-resolution and high-resolution speed inputs, enabling accurate measurement across a wide frequency range. Factory-certified design ensures reliable operation and seamless integration with Ovation control systems. Technical Specifications Feature Specification Manufacturer Emerson Ovation Part Number 1C31189G01 Product Type Speed Detector Interface Module Channels 8 Low Resolution Speed 16-bit, 200 Hz – 51,200 Hz High Resolution Speed 32-bit, 0.72 Hz – 65,535 Hz Input Type High Resolution Speed Value, Low Resolution Speed Value Terminal Options Selectable I/O 1 or 3 per channel Point Builder Valid Points High/Low Speed Input Overspeed Inputs Not applicable Trip Relay Input Relay type Weight 0.32 kg Shipping Weight 1.5 kg Dimensions Standard Ovation module form factor Certification Emerson Factory-Certified Key Features Supports 16-bit low-resolution and 32-bit high-resolution speed inputs 8-channel configuration for versatile monitoring of multiple machines Compatible with Ovation modules 1C31189G01 and 1C31192G01 Relay input for trip detection and integration with control logic Factory-certified to ensure system compatibility and operational reliability Compact and durable design suitable for installation in control cabinets Applications Turbine speed monitoring Generator and motor rotational speed measurement Power plant monitoring systems Pump and compressor speed detection Industrial machinery safety interlocks FAQ Q: Can this module detect both high-speed and low-speed signals simultaneously?A: Yes, each channel can handle either low-resolution (16-bit) or high-resolution (32-bit) speed signals. Q: Are overspeed inputs supported?A: This module does not support dedicated overspeed or open wire inputs. Trip detection is handled via relay integration. Q: Is it compatible with other Ovation personality modules?A: Yes, it is compatible with modules 1C31189G01 and 1C31192G01. Similar Models Comparison Model Channels Speed Resolution Frequency Range Key Feature 1C31189G01 8 16-bit / 32-bit 0.72–65,535 Hz HART-capable, factory-certified 1C31192G01 8 16-bit / 32-bit 0.72–65,535 Hz Extended compatibility with Ovation subsystems 1C31190G01 16 16-bit 200–51,200 Hz Higher channel count, standard speed detection
$200.00 $100.00
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Bently Nevada Bently Nevada 3500/25 Keyphasor Module Shaft Speed Unit
Product Description The Bently Nevada 3500/25 Enhanced Keyphasor® module is a dedicated timing and speed reference component within the 3500 machinery protection architecture. It is engineered to derive precise rotational position information from shaft-mounted sensors and distribute synchronized phase signals across the monitoring rack. This module converts analog inputs from proximity probes or magnetic pickups into stable digital timing pulses. These Keyphasor signals are used by vibration and diagnostic modules to align waveform data with shaft position, enabling accurate phase-based analysis and order tracking. It is widely deployed in rotating machinery systems where phase-referenced diagnostics are required for performance evaluation and fault detection. Signal Processing Function Converts raw analog shaft signals into digital Keyphasor pulse outputs Provides accurate rotational timing reference for the entire rack Supports single or dual-channel input configurations Ensures synchronized phase alignment across all vibration monitors Enables consistent speed and angular position measurement Measurement Capabilities Rotational speed calculation Shaft phase angle determination Synchronous vibration referencing Order tracking analysis for variable speed machines Multi-Keyphasor operation for complex mechanical systems Support for redundant timing configurations in critical applications Input Compatibility Proximity probe sensors (eddy current type) Magnetic pickup transducers Analog signal conditioning with digital pulse conversion Supports configurable channel architecture (1–2 channels depending on system setup) System Integration Provides timing reference to all 3500-series vibration monitors Fully compatible with modules such as 3500/40M, 3500/42M, and 3500/45M Required for phase-based vibration diagnostics and waveform alignment Supports startup, coast-down, and steady-state analysis workflows Enables order tracking and rotor dynamic evaluation Mechanical Configuration Full-height 3500 system module Front installation into rack backplane Rear I/O termination for sensor connections Modular design supports field replacement and maintenance Designed for integration within standard 3500 rack architecture Environmental Performance Suitable for continuous operation in harsh industrial environments Commonly deployed in: Gas and steam turbines Compressors and pumps Generators and drive trains Refinery and petrochemical rotating equipment Engineered for high vibration and temperature stability applications Functional Highlights Generates precise Keyphasor pulse trains for shaft reference Enhances vibration analysis accuracy through phase alignment Supports advanced diagnostics including Bode and polar plots Enables order-based vibration analysis in variable speed systems Supports redundant timing inputs for increased system reliability Acts as a critical synchronization source for machinery diagnostics FAQ Q1: What is the main function of the Keyphasor module?It provides a precise rotational timing reference used for phase-based vibration analysis and speed measurement. Q2: Can it work with magnetic pickup sensors?Yes. It supports both proximity probes and magnetic pickup inputs. Q3: Is this module part of the protection logic?No. It provides diagnostic timing signals and does not participate in protection trip functions.
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EMERSON Ovation 5X00070G01 Module | 4-20mA Analog Input Converter
Product Description Overview The Ovation 5X00070G01 module is a high-precision analog signal acquisition device designed for industrial automation systems. It converts 4–20mA current signals into digital values for monitoring, control, and data processing. This module is an integral component of the Ovation High-Speed Analog Input subsystem, suitable for applications requiring high signal accuracy and system reliability. Technical Specifications Input Type: Current signal Input Range: 4–20mA Resolution: 14-bit Channels: 8 individually isolated input channels Sampling Rate: 50 or 60 samples per second Channel Isolation: Each channel fully isolated Surge Protection: Integrated to prevent damage from transient voltage Power Supply: Requires external power; compatible with field-powered devices Operating Temperature: -40°C to +70°C Storage Temperature: -40°C to +85°C Relative Humidity: 0% to 95%, non-condensing Dimensions: Width 178mm × Height 90mm × Depth 100mm Weight: 0.5 kg Mounting: DIN rail mountable Communication Interface: Ovation Serial I/O Bus Applications High-precision process control systems Industrial automation data acquisition Distributed Control Systems (DCS) analog input Real-time monitoring of field devices FAQ Q: Does the module support multiple sampling rates?A: Yes, the 5X00070G01 supports 50 or 60 samples per second to meet different control requirements. Q: Are the input channels isolated?A: Yes, each input channel is independently isolated, ensuring system reliability and minimizing interference. Q: What is the mounting method?A: The module is DIN rail mountable, allowing easy integration into standard control cabinets. Q: What is the operating temperature range?A: The module operates from -40°C to +70°C and can be stored from -40°C to +85°C. Q: Is surge protection included?A: Yes, surge protection is built into the input circuitry to ensure long-term stable operation.
$200.00 $100.00
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EMERSON Emerson EPRO MMS6350D Digital Overspeed Protection System
Product Description Overview MMS6350D is a high-performance industrial speed sensor module designed for precise rotational speed measurement. It provides multiple signal outputs, including analog voltage, analog current, and TTL pulses, ensuring compatibility with a wide range of control and data acquisition systems. The module features built-in signal processing for real-time characteristic value generation and supports continuous channel monitoring to meet demanding industrial safety and reliability requirements. Input Signal Specifications Input Type: Differential, non-reactive, open- and short-circuit proof Voltage Range: 0–27.3 VDC, absolute maximum 30 V Input Resistance: 100 kΩ Sensor Signal Output Voltage Output Range: 0–4.1 V (Output = 0.15 × sensor signal) Accuracy: ±1% full-scale Frequency Response: 0–16 kHz (-3 dB ±20%) Permissible Load: 1 MΩ Internal Resistance: 10 kΩ Dynamic Pulse Output (TTL) Output Type: TTL pulses, open- and short-circuit protected Nominal Voltage: 0–5 V Frequency Range: 0–20 kHz Permissible Load: ≥1 kΩ Internal Resistance: 5.1 kΩ Pulse Output (Optocoupled) Maximum Voltage: +24 V DC (UC), +48 V DC (collector) Max Collector Current (C-E Conducting): 100 mA Characteristic Value Signal Processing Processing Method: Input pulses are standardized by the internal processor Calculation: Characteristic value = Input pulse frequency ÷ number of teeth on trigger wheel Maximum Measuring Range: Limited by 20 kHz maximum input frequency Max Trigger Wheel Teeth: 255 (max 4700 rpm) Current Outputs Output 1: 0/4–20 mA, galvanically isolated, ±0.1% full-scale accuracy, 16-bit resolution Output 2: 0/4–20 mA, non-isolated, with analog feedback for comparison, ±0.1% full-scale accuracy, 16-bit resolution Speed Scaling: One speed zoom per current output, ±0.1% accuracy Channel Monitoring and Visualization Function: Continuously monitors each channel’s speed signal and compares it with the other channels’ pulses and current outputs for maximum safety Status Indication: Dual green LEDs on front panel indicate faults Fault Signaling: Via opto-decoupled collector/emitter output Applications Ideal for rotational machinery speed monitoring, automated production line speed control, industrial process measurement, and safety monitoring systems. FAQ Q: How many teeth can the trigger wheel support?A: Up to 255 teeth, maximum rotational speed 4700 rpm. Q: Can the outputs be connected directly to a PLC?A: Yes, both TTL and 4–20 mA outputs are PLC-compatible. Q: Does the module provide isolated outputs?A: Output 1 is isolated; Output 2 is non-isolated with feedback. Technical Specifications Table Parameter Specification Input Type Differential, non-reactive, open/short-circuit proof Input Voltage 0–27.3 VDC (max 30 V) Input Resistance 100 kΩ Voltage Output 0–4.1 V Accuracy ±1% full scale Frequency Response 0–16 kHz (-3 dB ±20%) TTL Output 0–5 V, 0–20 kHz, 5.1 kΩ internal resistance Pulse Output Optocoupled, max 24/48 V, max 100 mA Current Output 1 0/4–20 mA, isolated, 16-bit, ±0.1% Current Output 2 0/4–20 mA, non-isolated, 16-bit, ±0.1% Max Trigger Wheel Teeth 255 teeth Max Measuring Speed 4700 rpm
$200.00 $100.00
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EMERSON EPR0 MMS6350/DP Digital Overspeed Protection System
Product Description Overview The MMS6350/DP from TheEPRo is an advanced digital overspeed protection device engineered for precise speed monitoring and safeguarding machinery in demanding industrial environments. Built to meet SIL3 safety standards, this system ensures high reliability and robust performance, making it suitable for critical applications. Key Features SIL3 (DIN EN 61508) certified for functional safety Supports PROFIBUS-DP communication for seamless system integration Ultra-precise speed measurement with ±0.1% accuracy Wide operating temperature range: -40°C to +70°C (-40°F to 158°F) Compact and lightweight design: 3.1 cm × 19 cm × 12.9 cm, 0.2 kg Technical Specifications Parameter Specification Model MMS6350/DP Type Digital Overspeed Protection System Input Voltage 0 to 30 VDC Input Resistance 100 kΩ Frequency Range 0 to 16 kHz (-3 dB) Dynamic Output TTL Level, 5 VSS Output Frequency Range 0 Hz to 20 kHz Pulse Output Max Voltage: +48 VDC, Max Current: 25 mA Communication PROFIBUS-DP Accuracy ±0.1% Resolution 0.1 rpm Operating Temperature -40°C to +70°C (-40°F to 158°F) Dimensions 3.1 cm × 19 cm × 12.9 cm Weight 0.2 kg Certification SIL3 (DIN EN 61508) Applications Ideal for industrial machinery, turbines, generators, and high-speed rotating equipment where precise speed control and safety monitoring are critical. The MMS6350/DP is optimized for integration into automated systems requiring real-time protection and PROFIBUS-DP communication. FAQ Q: Can the MMS6350/DP operate in extreme temperatures?A: Yes, it operates reliably from -40°C to +70°C. Q: What communication protocols are supported?A: The device supports PROFIBUS-DP for real-time system integration. Q: What is the resolution of speed measurement?A: The system provides a resolution of 0.1 rpm for highly accurate readings. Q: How does it compare to similar models?A: Compared to analog overspeed systems, MMS6350/DP offers higher accuracy, faster response, and SIL3-certified safety compliance.
$200.00 $100.00
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EMERSON Emerson MMS6350 Digital Overspeed Protection System | Dual-Channel Monitor
Product Description Overview The Epro MMS6350, produced by Emerson, is a high-precision digital overspeed protection system designed to safeguard rotating machinery against excessive speed conditions. Its robust design ensures reliable monitoring, fast detection, and configurable protection strategies, making it suitable for critical equipment in demanding industrial environments. Key Features Advanced Overspeed Protection: Implements precise algorithms for real-time monitoring and rapid detection of overspeed events. Dual-Channel Monitoring: Supports two independent speed inputs, enabling simultaneous tracking of multiple shafts or drivetrains. Configurable Protection Logic: Users can define overspeed thresholds, time delays, and relay responses for tailored protection. Comprehensive Diagnostics: Offers real-time data logging, event history, and self-diagnostic functions for maintenance and troubleshooting. Modular Construction: Allows easy system expansion and integration with evolving operational requirements. Technical Specifications Parameter Specification Speed Measurement Range 0.1 to 20,000 RPM Speed Accuracy ±0.2% of full scale Number of Speed Inputs 2 Protection Logic Customizable thresholds, relay outputs, and response delays Diagnostics Real-time logging, event history, self-diagnostics Communication Interface RS485 with Modbus RTU Operating Voltage 24 VDC Operating Temperature -40°C to 70°C Storage Temperature -40°C to 85°C Humidity 0 to 95% RH (non-condensing) Dimensions 120 x 80 x 60 mm Weight 1.5 kg Approvals CE, RoHS Applications The MMS6350 is ideal for turbines, compressors, generators, pumps, and other rotating equipment where overspeed protection is critical for safety and operational reliability. It is widely used in power generation, process plants, and heavy industrial systems. FAQ Q: Can the MMS6350 protect multiple machines simultaneously?A: Yes, the dual-channel design allows monitoring of two independent rotational sources. Q: What is the communication protocol for system integration?A: It uses RS485 with Modbus RTU for seamless connection to control systems and SCADA platforms. Q: Is the device suitable for extreme environmental conditions?A: Yes, it operates reliably from -40°C to 70°C and can withstand high humidity up to 95% non-condensing. Q: How does modular design benefit maintenance?A: Modular construction allows quick expansion, replacement, or upgrade of components without system downtime.
$200.00 $100.00
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EMERSON Emerson EPR0PR9376/010-011 Hall Effect Speed | Proximity Sensor
Product Description OverviewThe Emerson EPR0PR9376/010-011 is a high-precision Hall effect sensor designed for non-contact speed and proximity detection of metallic objects. Engineered for reliability in demanding industrial environments, it provides accurate analog voltage output corresponding to the speed or distance of target components. Key Features Non-contact detection using Hall effect principle Analog voltage output proportional to target motion or proximity Robust industrial-grade construction for harsh environments 5-meter armored cable included for secure installation ApplicationsIdeal for monitoring motion, rotation, or object presence in: Steam, gas, and hydro turbines Compressors Pumps and fans Automated machinery and industrial positioning systems Technical Specifications Parameter Specification Sensor Type Hall effect speed/proximity sensor Output Signal Analog voltage output (linear with speed/distance) Supply Voltage 10–30 VDC (consult datasheet for exact range) Operating Temperature -25°C to 100°C (verify datasheet for extended ranges) Environmental Protection IP65/industrial-grade (suitable for dust and moisture) Cable Length 5 meters, armored for mechanical protection Mounting Non-contact, compatible with metallic targets Condition New with original packaging Warranty 12 months FAQQ: Can this sensor detect non-metallic objects?A: No, it is designed specifically for metallic targets using the Hall effect principle. Q: What is the maximum rotational speed it can measure?A: Depends on the specific application; typically suitable for speeds up to several thousand RPM. Consult the datasheet for detailed limitations. Q: Are there compatible alternatives in the same series?A: Emerson offers variants such as EPR0PR9670/113-100 for different voltage ranges or mounting options.
$200.00 $100.00
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EMERSON EPRO PR9376/20 Emerson Hall Effect Speed & Proximity Sensor
Product Description Overview The PR9376/20 is a high-precision non-contact Hall effect sensor engineered for speed and proximity measurement in demanding turbomachinery environments. Designed for applications including steam, gas, and hydro turbines, compressors, pumps, and industrial fans, this sensor delivers reliable performance under high-speed and high-frequency conditions. Key Features Non-contact differential Hall effect sensor with integrated operational amplifier Dual Hall effect elements in a half-bridge configuration for accurate signal detection Compact and durable design suitable for critical machinery Technical Specifications Parameter Specification Model PR9376/20 Brand EPRO Voltage 220V / 380V Dimensions 30 × 20 × 25 cm (shipping), 16 × 16 × 12 cm (sensor head) Weight 1 kg Output 1 AC cycle per revolution or per gear tooth Rise/Fall Time 1 µs Output Voltage High >10 V, Low <1 V (12 VDC, 100 kΩ load) Air Gap 1 mm (Module 1), 1.5 mm (Module ≥2) Maximum Operating Frequency 12 kHz (720,000 cpm) Trigger Mark Compatibility Spur Wheel, Involute Gearing, Module 1 Material ST37 Steel Warranty 12 months Lead Time 3–5 workdays Packing Original manufacturer packaging Applications Speed measurement on high-speed rotors Proximity sensing in pumps, compressors, and turbines Monitoring rotational machinery in harsh industrial environments FAQ Q: Can this sensor operate on both AC and DC systems?A: The PR9376/20 is designed for AC excitation, typically 220V or 380V, and provides a DC-compatible output signal for measurement electronics. Q: What is the recommended air gap?A: 1 mm for Module 1 and 1.5 mm for Modules 2 or higher. Maintaining this ensures optimal signal fidelity. Q: How does it compare to similar EPRO models?A: Compared to the PR9375 series, the PR9376/20 supports higher frequency operation and a more compact sensor head for tight installation environments.
$200.00 $100.00
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