Yokogawa Electric provides advanced automation solutions for process control and safety. Its product range includes CENTUM VP DCS, ProSafe-RS safety systems, and spare parts. Yokogawa technology ensures reliable operation, long-term system support, and optimized performance across industries worldwide.
Yokogawa Electric
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Yokogawa SB Bus Repeat Module | Yokogawa NFSB100-S50
Yokogawa NFSB100-S50 SB Bus Repeat Module Configured for SB Bus signal extension in the STARDOM FCN autonomous controller platform, the Yokogawa NFSB100-S50 (NFSB100 SB Bus Repeat Module) provides direct physical and electrical execution for local backplane communication expansion between FCN control and I/O extension units. Suffix Breakdown & Model Matrix Suffix Code Definition -S Standard model 5 Non-explosion-protected specification 0 Standard environmental specification /SBT01 T-joint connection accessory for SB Bus extension topology Hardware Specifications Parameter Specification Model NFSB100-S50 Brand Yokogawa Electric Product Type SB Bus Repeat Modules Origin Japan Communication Bus Yokogawa SB Bus Transmission Speed 128 Mbps Bus Extension Distance Max. 8 m per line Expansion Capacity Up to 2 extension units Redundancy Support Dual module duplex configuration Hot Swap Support Supported during online operation Supply Voltage 5 VDC (+/-5%) via backplane Power Consumption Max. 500 mA Dimensions 32.8 mm x 130 mm x 142.5 mm Weight Approx. 0.4 kg Operating Temp 0 degC to 55 degC Humidity Range 5% to 95% RH non-condensing Protection Rating IP20 Mounting Format Single-slot chassis module Lead Time 1 to 3 working days Warranty 1 year Channel Isolation and SB Bus Communication Characteristics The module operates as an intermediate SB Bus communication repeater between FCN control sections and downstream I/O expansion assemblies. Duplex deployment requires two modules installed in parallel rack positions for redundant communication path continuity. Backplane communication is executed through deterministic serial bus transfer at 128 Mbps. The module supports online insertion and extraction during controller runtime provided the redundant communication path remains active. The NFSB100-S50 supports integration with Yokogawa SB Bus T-joint hardware assemblies including /SBT01 and terminated /SBT02 configurations. Signal routing between adjacent cabinets should maintain isolated grounding continuity and separated high-noise power cable paths. Frequently Asked Questions Q: Does the NFSB100-S50 support online module replacement during operation?A: Yes. The module supports hot-swappable insertion and extraction when deployed within an active redundant SB Bus configuration. Q: What is the maximum local extension distance supported by the SB Bus line?A: The module supports a maximum SB Bus extension length of 8 m per communication line between FCN rack assemblies. Q: How is redundant communication implemented for the SB Bus?A: Duplex communication is achieved by installing two NFSB100 modules in paired rack positions to maintain alternate bus path availability. Field Installation Guidelines Before installation, isolate chassis power and verify backplane connector alignment against FCN rack slot assignment documentation. Avoid excessive insertion force during module seating to prevent backplane pin deformation. Route SB Bus extension cables separately from inverter output wiring, motor feeders, and high-current AC distribution lines. Shield continuity should remain bonded through cabinet grounding points without multiple earth reference loops. For duplex installations, maintain identical cable lengths and equivalent routing geometry between redundant SB Bus paths. Verify T-joint termination selection before energizing the communication segment.
$200.00 $100.00
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Yokogawa SB401-10 | Yokogawa | ESB Bus Interface Slave Module
Yokogawa SSB401-13 ESB Bus Interface Module The Yokogawa SSB401-13, also cataloged as the SSB401 ESB Bus Interface Module, operates as a dedicated hardware component for optical ESB bus communication transfer within Yokogawa Vnet/IP and ProSafe-RS architectures. The module executes slave-side ESB bus interfacing between safety control nodes and distributed extension I/O assemblies through optical transmission channels. Suffix Breakdown & Model Matrix Model Description SSB401 Base ESB Bus Interface Module SSB401-13 Standard specification model with conformal coating configuration Hardware Specifications Parameter Specification Model SSB401-13 Brand Yokogawa Product Type ESB Bus Interface Module Origin Japan Communication Function ESB bus optical transport interface Network Compatibility Vnet/IP Connection Type Star and chain topology Maximum Connecting Stages 2 stages Transmission Distance 5 km to 50 km Optical Power Attenuation 3 dB to 4 dB between specified connections Current Consumption 0.5 A Weight Approx. 0.3 kg Dimensions 142.5 mm x 130 mm x 328 mm Operating Temp Not specified in supplied data Mounting Method Rack/backplane installation Redundancy Support Dual-redundant configuration support Hot Swap Capability Supported Diagnostic Indicators STATUS/RDY, TX, RX LEDs Environmental Protection Conformal coating, ISA G3 environment compatibility Channel Isolation and Optical Bus Communication Characteristics The module performs optical ESB bus signal distribution between remote safety nodes and control backplanes using dedicated optical transmission paths. Within dual-redundant configurations, adjacent slot installation permits automatic communication path continuation during online module replacement procedures. The SSB401-13 supports deterministic Vnet/IP data exchange through optical ESB transport layers while maintaining electrical isolation between communication segments. TX and RX indicator activity provides direct front-panel verification of active bus frame transmission status. Frequently Asked Questions Q: Does the SSB401-13 support online hot replacement during operation?A: Yes. The module supports online insertion and extraction when installed within compatible Yokogawa node units configured for redundant operation. Q: What network topology types are supported by the module?A: The module supports both star and chain ESB optical bus connection arrangements. Q: What installation condition is required for redundant operation?A: Redundant configurations require paired module installation in designated adjacent slots according to Yokogawa backplane allocation rules. Field Installation Guidelines Verify optical connector cleanliness before fiber attachment to prevent attenuation increase across ESB communication paths. Maintain minimum fiber bend radius during routing inside control cabinets. Separate optical communication cables from high-current motor power conductors and inverter output wiring. Confirm backplane slot assignment consistency before energizing redundant node configurations. Use grounded cabinet structures and shield continuity practices according to plant instrumentation grounding standards. Inspect STATUS/RDY indicators after module insertion to verify completion of internal diagnostics.
$200.00 $100.00
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Yokogawa Yokogawa SSB401-13 | Vnet/IP | ESB Bus Interface Module
Yokogawa SSB401-13 ESB Bus Interface Module The Yokogawa SSB401-13, also cataloged as the SSB401 ESB Bus Interface Module, operates as a dedicated hardware component for optical ESB bus communication transfer within Yokogawa Vnet/IP and ProSafe-RS architectures. The module executes slave-side ESB bus interfacing between safety control nodes and distributed extension I/O assemblies through optical transmission channels. Suffix Breakdown & Model Matrix Model Description SSB401 Base ESB Bus Interface Module SSB401-13 Standard specification model with conformal coating configuration Hardware Specifications Parameter Specification Model SSB401-13 Brand Yokogawa Product Type ESB Bus Interface Module Origin Japan Communication Function ESB bus optical transport interface Network Compatibility Vnet/IP Connection Type Star and chain topology Maximum Connecting Stages 2 stages Transmission Distance 5 km to 50 km Optical Power Attenuation 3 dB to 4 dB between specified connections Current Consumption 0.5 A Weight Approx. 0.3 kg Dimensions 142.5 mm x 130 mm x 328 mm Operating Temp Not specified in supplied data Mounting Method Rack/backplane installation Redundancy Support Dual-redundant configuration support Hot Swap Capability Supported Diagnostic Indicators STATUS/RDY, TX, RX LEDs Environmental Protection Conformal coating, ISA G3 environment compatibility Channel Isolation and Optical Bus Communication Characteristics The module performs optical ESB bus signal distribution between remote safety nodes and control backplanes using dedicated optical transmission paths. Within dual-redundant configurations, adjacent slot installation permits automatic communication path continuation during online module replacement procedures. The SSB401-13 supports deterministic Vnet/IP data exchange through optical ESB transport layers while maintaining electrical isolation between communication segments. TX and RX indicator activity provides direct front-panel verification of active bus frame transmission status. Frequently Asked Questions Q: Does the SSB401-13 support online hot replacement during operation?A: Yes. The module supports online insertion and extraction when installed within compatible Yokogawa node units configured for redundant operation. Q: What network topology types are supported by the module?A: The module supports both star and chain ESB optical bus connection arrangements. Q: What installation condition is required for redundant operation?A: Redundant configurations require paired module installation in designated adjacent slots according to Yokogawa backplane allocation rules. Field Installation Guidelines Verify optical connector cleanliness before fiber attachment to prevent attenuation increase across ESB communication paths. Maintain minimum fiber bend radius during routing inside control cabinets. Separate optical communication cables from high-current motor power conductors and inverter output wiring. Confirm backplane slot assignment consistency before energizing redundant node configurations. Use grounded cabinet structures and shield continuity practices according to plant instrumentation grounding standards. Inspect STATUS/RDY indicators after module insertion to verify completion of internal diagnostics.
$200.00 $100.00
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Yokogawa ESB Bus Interface Master Module | Yokogawa SB301
Yokogawa SB301 ESB Bus Interface Master Module Configured for ESB backplane communication management in CENTUM CS 3000 and CENTUM VP systems, the Yokogawa SB301 (SB301 ESB Bus Interface Master Module) provides direct physical and electrical execution between Field Control Station processors and remote I/O extension nodes through the Extended Serial Backplane network. Suffix Breakdown & Model Matrix The supplied documentation identifies the module as SB301 Style S1 hardware. No additional suffix matrix or ordering-code segmentation is specified in the provided material. Hardware Specifications Parameter Specification Model SB301 Brand Yokogawa Product Type ESB Bus Interface Master Module Series CENTUM CS 3000 / CENTUM VP Origin Japan Bus Architecture Extended Serial Backplane (ESB) Installation Location FCS processor card slot Communication Role ESB master communication interface Redundancy Support 1-to-1 hot standby redundant configuration Hot Swap Capability Supported during system operation Power Supply 24 VDC via FCS backplane Operating Temp 0 degC to 50 degC Dimensions 1.0 in x 10.3 in x 9.8 in Dimensions Metric 2.5 cm x 26.0 cm x 24.8 cm Weight Approximately 0.3 kg Status Indicators RDY, TX, RX diagnostic LEDs Connector Type ESB bus interface connector System Compatibility Yokogawa CENTUM CS 3000 and CENTUM VP Channel Isolation and ESB Backplane Communication The SB301 module exchanges cyclic process data through the Yokogawa ESB communication layer installed inside the FCS architecture. The module supervises transmission scheduling between the processor section and distributed I/O extension units connected across the ESB segment. Backplane communication is executed through deterministic serial bus transactions managed by the SB301 master interface. In redundant installations, synchronization status between active and standby modules is maintained continuously through the internal FCS redundancy control mechanism. The module receives operating power directly from the rack backplane and does not require a separate field power terminal. Shielded ESB communication cabling is used to reduce conducted electrical noise between cabinets and remote node assemblies. Frequently Asked Questions Q: Does the SB301 support online replacement while the control station remains energized?A: Yes. The supplied documentation specifies hot-swappable replacement capability during active system operation when installed in compatible Yokogawa FCS architectures. Q: What occurs during redundant module switchover operation?A: In a 1-to-1 redundant configuration, the standby SB301 assumes communication control if the active module detects an internal fault condition. The transfer process is managed through the FCS redundancy control sequence. Q: Which diagnostic indicators are available on the module front panel?A: The module includes RDY, TX, and RX LED indicators. RDY indicates internal operational status, while TX and RX lamps indicate active communication traffic on the ESB network. Field Installation Guidelines Before module insertion, verify that the target FCS rack slot matches the designated ESB interface position defined by the CENTUM system hardware configuration. Use grounded wrist protection during handling to prevent electrostatic discharge damage to the module edge connector and onboard communication circuitry. Maintain shield continuity for all ESB communication cables. Cable shields should be terminated according to Yokogawa cabinet grounding practice to minimize common-mode electrical interference between connected I/O cabinets. Do not force insertion into the backplane connector. The module should slide evenly into the guide rails until full connector engagement is achieved. When replacing redundant modules, confirm synchronization and communication status through the RDY and communication activity indicators before returning the system to normal maintenance status.
$200.00 $100.00
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Yokogawa Communication Module | VI451-10 Yokogawa Vnet/IP
Yokogawa VI451-10 Communication Module Configured for Vnet/IP data communication in CENTUM VP and CENTUM CS 3000 networks, the Yokogawa VI451-10 (VI451 Communication Module) provides direct physical and electrical execution for synchronized controller, SOE, and process data exchange across distributed control system backplanes. Suffix Breakdown & Model Matrix The supplied documentation identifies the module as a fixed model configuration: VI451-10. No official suffix matrix, slot-code variant, or option-code segmentation was specified in the provided material. Hardware Specifications Parameter Specification Model VI451-10 Brand Yokogawa Product Type Communication Module Network Type Vnet/IP Industrial Ethernet Supported Systems CENTUM CS 3000, CENTUM VP Installation Method Rack-mounted module Protection Level IP54 Input Power Supply 100 to 120 V AC Max. Input Current 20 A Additional Current Rating 6 A SOE Resolution 1 ms timestamp resolution Time Synchronization SNTP supported Signal Filtering 4 to 512 ms configurable filtering Diagnostic Indicators CPU/Ready, Send, Receive LED indicators Communication Support Ethernet, UDP/IP, OPC/SOAP structures Weight Approx. 0.74 kg Origin Japan Channel Isolation and Process Communication Characteristics The module exchanges deterministic process traffic and supervisory Ethernet communication simultaneously through the Yokogawa Vnet/IP architecture. Internal communication handling separates SOE event processing from standard Ethernet packet exchange to maintain timestamp consistency during controller synchronization operations. Integrated software filtering from 4 to 512 ms suppresses transient field-contact oscillation before event registration. The communication interface supports synchronized time acquisition through SNTP linkage for distributed controller alignment and sequence-of-events consistency. Frequently Asked Questions Q: Does the VI451-10 support synchronized SOE recording across multiple controllers?A: Yes. The module supports 1 ms SOE timestamp handling and can synchronize system time through SNTP-based clock coordination across the Vnet/IP network. Q: Can the communication module filter transient contact noise before event logging?A: Yes. Internal configurable filtering between 4 and 512 ms is provided to suppress short-duration signal transitions and contact chatter. Q: Are diagnostic indicators available on the module front panel?A: Yes. Front-panel LED indicators are provided for communication and module operating status verification, including Ready, Send, and Receive states. Field Installation Guidelines Before module insertion, isolate rack power and verify backplane connector alignment to prevent edge-connector damage during installation. Maintain shield continuity for Ethernet communication wiring and terminate cable shields according to the cabinet grounding scheme. Do not route Vnet/IP communication cables in parallel with high-current motor output wiring or inverter power conductors. Maintain cabinet airflow clearance around the module faceplate to prevent localized thermal accumulation inside densely populated racks. Verify SNTP synchronization settings after commissioning to ensure SOE timestamp consistency between Field Control Stations and engineering workstations. Inspect LED status indicators during startup to confirm communication establishment and controller recognition.
$200.00 $100.00
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Yokogawa VI702 Yokogawa | Vnet/IP Interface Card
Yokogawa VI702 Vnet/IP Interface Card Configured for PCI Express to Vnet/IP communication execution in Yokogawa Vnet/IP control networks, the Yokogawa VI702 (VI702 interface card) provides direct physical/electrical execution. The module installs into a PCI Express slot and operates as a dedicated 1 Gbps full-duplex communication interface between PC/AT compatible computers and Vnet/IP process control infrastructure. Hardware Specifications Parameter Specification Model VI702 Brand Yokogawa Origin Japan Product Type Vnet/IP Interface Cards Communication Speed 1 Gbps Full Duplex Network Standard 1000BASE-T Transmission Medium CAT5e UTP cable Connector Type RJ45 Maximum Transmission Distance 100 m PCI Express Compatibility PCI Express CEM Specification 1.0a x1 PCIe Signaling Rate 2.5 GT/s Supported Slot Size PCI Express x1 to x16 PCI Slot Compatibility Not supported Power Supply Voltage 3.3 V +/- 9 % Current Consumption Max. 2.5 A Weight Approx. 0.18 kg Status Indicators RDY, RCV, SND LEDs Channel Isolation and Vnet/IP Communication Handling The VI702 interface card operates as a dedicated communication endpoint for deterministic Vnet/IP data transfer across PCI Express hardware platforms. The module supports 1000BASE-T Ethernet transmission using CAT5e UTP cabling with RJ45 physical termination. Within Yokogawa DCS environments, the module handles direct packet exchange between the host workstation and the Vnet/IP control bus. Signal activity is indicated through dedicated RCV and SND hardware LEDs, allowing local verification of bus traffic status during commissioning and maintenance activity. The PCI Express implementation conforms to PCI Express CEM Specification 1.0a x1 operation at 2.5 GT/s signaling rates. Mechanical installation compatibility extends from x1 through x16 PCI Express slots without PCI legacy slot support. Frequently Asked Questions Q: Can the VI702 be installed into a conventional PCI slot?A: No. The module supports only PCI Express slot architecture from x1 through x16 mechanical configurations. Legacy PCI slots are not electrically compatible. Q: What cable specification is required for Vnet/IP communication?A: The interface requires CAT5e UTP cabling operating under 1000BASE-T Ethernet specifications with a maximum segment distance of 100 m between the VI702 and the Layer 2 switch. Q: What hardware indicators are available on the front assembly?A: The module includes RDY, RCV, and SND LED indicators for diagnostic status, receive activity, and transmit activity monitoring. Field Installation Guidelines Verify PCI Express slot voltage compatibility before module insertion. Do not install or remove the module while the host computer is energized unless the platform explicitly supports controlled hot-swap PCIe maintenance procedures. Maintain CAT5e cable bend radius and separation from high-voltage motor feeder wiring to reduce electromagnetic coupling. Use shielded industrial Ethernet routing practices when the module is installed near variable frequency drives or high-current switching equipment. Confirm Layer 2 switch configuration supports 1000BASE-T full-duplex communication before network commissioning. Tighten RJ45 cable retention points to prevent intermittent packet loss caused by vibration or cable strain.
$200.00 $100.00
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Yokogawa Yokogawa VI701 | Vnet/IP Interface Card
Yokogawa VI701 Vnet/IP Interface Card Configured for high-speed Vnet/IP network communication in CENTUM VP and CENTUM CS 3000 platforms, the Yokogawa VI701 (VI701 Vnet/IP Interface Card) provides direct physical and electrical execution through a PCI-based Ethernet communication interface for HIS and engineering workstation integration. Suffix Breakdown & Model Matrix The supplied documentation identifies a single fixed model configuration only. No official suffix or option-code decomposition is specified within the available technical data. Hardware Specifications Parameter Specification Model VI701 Brand Yokogawa Origin Japan Product Type Vnet/IP Interface Card Communication Speed 1000 Mbps Full Duplex Ethernet Standard 1000BASE-T Connector Type RJ45 Cable Requirement CAT5e UTP Maximum Transmission Distance 100 m PCI Bus Specification PCI Bus Specification Rev. 3.0 Bus Width/Frequency 32-bit / 33 MHz Power Supply Voltage 5 V Signal Voltage 3.3 V / 5 V Current Consumption Max. 2.5 A Power Consumption Derived from PCI bus supply load Dimensions 106.68 mm x 167.64 mm Weight 0.2 kg DCS Communication Interface Characteristics The VI701 communication architecture operates through deterministic Ethernet transport within Yokogawa Vnet/IP process control environments. The module supports 1000BASE-T transmission over CAT5e infrastructure using full-duplex communication paths between the workstation PCI subsystem and Layer 2 switching hardware. Channel communication status is indicated through dedicated hardware LEDs. The RDY indicator confirms successful onboard diagnostic completion, while RCV and SND indicators reflect active packet receive and transmit conditions on the control communication bus. The PCI interface supports mixed 3.3 V and 5 V signaling environments compliant with PCI Revision 3.0 backplane specifications. Installation into PCI-X mechanical slots is possible when electrical compatibility is maintained at 33 MHz operating frequency. Frequently Asked Questions Q: Does the VI701 support hot-swapping during system operation?A: The supplied specifications define the module as a PCI bus interface card. Standard PCI hardware installation practice requires complete host workstation power shutdown before insertion or removal. Q: What cabling limitations apply to the Ethernet connection?A: The interface supports CAT5e UTP cabling with a maximum point-to-point distance of 100 m between the VI701 interface and the connected Layer 2 switch. Q: What diagnostic functions are available directly on the hardware?A: The module includes RDY, RCV, and SND LED indicators for onboard diagnostic confirmation and communication activity monitoring during network operation. Field Installation Guidelines Before installation, verify PCI slot voltage compatibility with 3.3 V / 5 V signaling requirements defined by the card specification. Confirm that the workstation chassis provides adequate airflow around adjacent PCI devices to avoid localized thermal accumulation. Route Ethernet cabling separately from high-current AC power conductors and variable frequency drive output wiring to minimize induced electromagnetic interference on the Vnet/IP communication path. Use properly terminated CAT5e cabling with maintained twist integrity up to the RJ45 termination point. Excessive cable untwist near the connector can increase susceptibility to packet transmission errors in industrial electrical environments. Confirm Layer 2 switch configuration supports 1000BASE-T full-duplex operation before commissioning the communication link.
$200.00 $100.00
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Yokogawa ADM51C-2 Yokogawa | Contact Output Module-16-point
Yokogawa ADM51C-2 Contact Output Module Configured for digital contact signal execution in Yokogawa CENTUM CS 3000 and CENTUM CS 1000 platforms, the Yokogawa ADM51C-2 (ADM51C Contact Output Module) provides direct electrical switching through 16-point transistor contact outputs. The module processes discrete output commands from the DCS backplane and transfers pulse-driven contact signals to external field-side circuits. Suffix Breakdown & Model Matrix Model Description ADM51C-2 16-point contact output module for CENTUM CS series DCS platforms Hardware Specifications Parameter Specification Model ADM51C-2 Brand Yokogawa Product Type Contact Output Module Compatible Systems CENTUM CS 3000, CENTUM CS 1000 Output Points 16 points Output Signal Type Transistor contact output Contact Rating (Resistive Load) 30 VDC, 100 mA or less Contact Rating (Inductive Load) 30 VDC, 100 mA or less Pulse Width Setting Range 0.1 s to 7200 s Pulse Width Resolution 20 ms Current Consumption 600 mA or less at 5.0 VDC Power Supply 5.0 VDC backplane supply Mounting Method DCS rack mounting Signal Interface Backplane communication interface Isolation Type Channel-based transistor output isolation Origin Japan Channel Isolation and DCS Signal Handling The ADM51C-2 module executes transistor-based discrete output switching through isolated output channels integrated into the CENTUM DCS I/O architecture. Signal routing is performed through the Yokogawa backplane interface, allowing command synchronization between field control processors and remote output circuits. The module supports pulse-driven output execution with configurable timing from 0.1 s to 7200 s. This permits direct handling of timed relay actuation, interposing contact control, and sequence-triggered discrete logic without requiring external timing hardware. For inductive field loads, external suppression components such as flyback diodes or RC snubbers are recommended to reduce transient voltage propagation into transistor output stages. Frequently Asked Questions Q: Does the ADM51C-2 support direct inductive load switching?A: Yes. The module supports inductive loads up to 30 VDC and 100 mA per output point. External surge suppression should be installed across inductive devices to limit switching transients. Q: Is hot swapping permitted during active DCS operation?A: Hot-swap capability depends on the CENTUM rack and controller configuration. Module insertion or removal should follow Yokogawa maintenance procedures to prevent backplane communication interruption. Q: How is pulse timing configured on the module outputs?A: Pulse duration is adjustable from 0.1 s to 7200 s with 20 ms resolution through system-side engineering configuration parameters. Field Installation Guidelines Verify 5.0 VDC backplane power stability before module insertion. Maintain segregation between low-level signal wiring and inductive power cabling inside the control cabinet. Use shielded field wiring where long cable runs are present near high-frequency switching equipment. Install surge suppression devices directly across relay coils, solenoids, or inductive actuators connected to output channels. Confirm terminal tightening torque according to cabinet assembly standards to prevent intermittent contact conditions. Perform output loop continuity checks prior to energizing field-side loads.
$200.00 $100.00
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Yokogawa Yokogawa ADM51-2 Digital Output Module
Yokogawa ADM51-2 Digital Output Module Configured for discrete on/off signal execution in CENTUM CS/CENTUM VP DCS I/O networks, the Yokogawa ADM51-2 (ADM51-2 Digital Output Module) provides direct physical/electrical execution. The module implements 32-channel isolated transistor outputs for field device switching. Each channel is independently isolated to reduce cross-interference during high-density I/O operation. Pulse control and fast response characteristics support deterministic discrete command execution within distributed control architectures. SuffixBreakdown&ModelMatrix No official manufacturer-defined suffix segmentation or model matrix breakdown is provided for ADM51-2. The designation is treated as a fixed module identifier within the Yokogawa DCS I/O catalog. HardwareSpecifications Parameter Specification ModelBrand Yokogawa ADM51-2 Origin JAPAN Weight Approx. 1.0 kg Dimensions Not specified (refer to system rack/slot configuration) OperatingTemp Not specified PowerConsumption 130 mA at 24 VDC Output Channels 32 channels Output Type Transistor contact Load Rating 30 VDC, 100 mA or lower Pulse Width 8 ms to 7200 s (8 ms resolution) Response Time 8 ms Isolation Channel-to-channel isolation Connection ADT16 terminal block / KS2 / KS3 cable Channel-to-Channel Isolation and DCS Output Integrity The ADM51-2 implements per-channel electrical isolation to maintain output independence under mixed-load switching conditions. Within Yokogawa CENTUM architectures, discrete output scan cycles are synchronized via backplane communication, ensuring consistent state propagation across all 32 channels. Isolation structure limits coupling between adjacent transistor outputs during inductive load switching events, supporting stable discrete actuation behavior in high-density racks. Frequently Asked Questions Q: Can the ADM51-2 outputs be hot-swapped during operation?A: Hot-swap capability is dependent on the host I/O rack configuration. The module itself does not define field-side live replacement behavior; backplane interlock conditions must be verified at system level. Q: What limits the 100 mA per channel output rating?A: The limitation is defined by the internal transistor switching element thermal and current handling capacity, as well as protection design within the output driver stage. Q: Does channel-to-channel isolation affect output timing?A: Isolation is implemented electrically and does not introduce independent per-channel timing delays beyond the shared backplane scan cycle latency. FieldInstallationGuidelines Ensure 24 VDC system power is isolated from field load power circuits prior to installation. Maintain correct polarity alignment when terminating ADT16 terminal blocks or KS2/KS3 cabling. Shielded wiring is recommended for inductive or noise-prone loads, with single-point grounding at cabinet earth reference. Avoid routing output wiring parallel to high-voltage or high-frequency conductors to reduce electromagnetic coupling into transistor output stages. Verify load current does not exceed 100 mA per channel under steady-state operation.
$200.00 $100.00
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Yokogawa ADM51T Yokogawa Contact Output Module | Terminal block
Yokogawa ADM51T Contact Output Module The Yokogawa ADM51T, also cataloged as the ADM51T Contact Output Module, operates as a dedicated hardware component for driving external relays and indicators within CENTUM CS3000 DCS systems. It provides deterministic ON/OFF switching through 16 independent relay channels while maintaining channel-to-channel electrical isolation. Hardware Specifications Parameter Specification ModelBrand Yokogawa ADM51T Origin Japan Weight Approx. 250 grams (including terminals) Dimensions Terminal block type, standard module form factor OperatingTemp -20 to +60 degC HumidityRange 5 to 95 percent RH, non-condensing OutputPoints 16 independent relay channels OutputType Form C (SPDT) relay contacts MaximumSwitchingVoltage 250 VAC or 30 VDC MaximumSwitchingCurrent 2 A per point, 8 A per common group MinimumLoad 10 mV DC at 1 mA MechanicalLife 20 million operations (no load) ElectricalLife 100,000 operations at rated resistive load ResponseTime Operate: 10 ms; Release: 5 ms InsulationResistance >100 MΩ at 500 VDC DielectricStrength 2300 VAC for 1 minute between terminals and ground PowerConsumption Typically ≤ 130 mA at 24 VDC Channel-to-Channel Isolationand Fieldbus Considerations The ADM51T module maintains galvanic isolation between each output channel and the DCS logic backplane. This design prevents electrical surges or faults in one relay loop from affecting adjacent loops. The isolation complies with industrial EMC standards and is compatible with 4-20 mA HART loop signaling in hybrid analog-digital process control networks. Channel status LEDs provide immediate visual verification for operational diagnostics. Frequently Asked Questions Q: Does the ADM51T support online replacement without shutting down the DCS?A: Yes. The module is designed for hot-swapping, allowing replacement while the backplane remains powered. Q: What is the maximum common current for a relay group?A: Each common group supports up to 8 A total, with individual points rated at 2 A maximum. Q: Can the module interface directly with 24 VDC solenoid valves?A: Yes. The relay contacts handle up to 30 VDC, suitable for standard 24 VDC field devices. Field Installation Guidelines Mount the module on a compatible CENTUM CS3000 terminal rack with secure terminal connections. Connect external field devices to the SPDT contacts, ensuring the common group does not exceed rated current. Maintain separation of high-voltage and low-voltage wiring to reduce electromagnetic interference. Ground shielding as per standard industrial practices to avoid signal distortion. Verify LED indicators for each channel during commissioning before applying full operational load.
$200.00 $100.00
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Yokogawa Contact Input Module | Yokogawa ADM11T Digital Input
Yokogawa ADM11T Contact Input Module The Yokogawa ADM11T, also cataloged as the ADM11 Contact Input Module, operates as a dedicated hardware component for digitizing discrete switch status signals within CENTUM DCS platforms. It directly interfaces field devices to the control system, providing channel-level electrical isolation and status feedback. Hardware Specifications Parameter Specification Model Brand Yokogawa Origin Japan Input Points 16 independent channels Input Type Dry contact / wet contact (voltage dependent on common) Input Voltage Range On ≥ 19 VDC, Off ≤ 5 VDC Input Current ~7 mA per point at nominal voltage Response Time Sub-millisecond switching detection Channel Isolation 500 V AC typical (channel-to-channel or group) Wiring Interface Screw terminal block Channel Density 16 points per module slot Mounting DIN rail or backplane for Yokogawa controllers Operating Temperature -20 to +60 degC Power Consumption < 100 mA from internal logic supply Weight ~200 g including terminals Dimensions Standard slim-profile module for dense cabinet layout Status Indication LED per channel DCS Connectivity & Electrical Characteristics The ADM11T provides channel-to-channel isolation and integrates directly into the Yokogawa CENTUM backplane. Input circuits accept both normally open and normally closed contacts, providing deterministic logic detection within sub-millisecond response times. LED indicators per channel deliver real-time visual feedback of input status, simplifying local diagnostics without external instrumentation. Frequently Asked Questions Q: Can the ADM11T module be replaced while the system is powered?A: Hot-swap replacement is supported; standard precautions for DIN rail modules must be observed. Q: What is the maximum input current per channel?A: Approximately 7 mA per channel at nominal voltage. Q: How is electrical isolation handled?A: Each input channel is optically isolated with a typical rating of 500 V AC from internal logic circuits. Field Installation Guidelines Mount module securely on the DIN rail, ensuring proper alignment with adjacent modules. Connect field wiring to screw terminals, verifying correct polarity for wet contacts. Avoid running input wires in parallel with high-voltage or high-current cables to reduce electromagnetic interference. Ensure the backplane connector is fully seated before applying power. Ground the module chassis according to site standards to maintain isolation integrity. LED indicators can be used for immediate verification of input signal continuity and logic state.
$200.00 $100.00
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Yokogawa Yokogawa ADM12T Terminal Board Module | Digital Input Modules
Yokogawa ADM12T Terminal Board Module The Yokogawa ADM12T, also cataloged as the ADM12T Terminal Board Module, operates as a dedicated hardware component for digital contact input monitoring within CENTUM CS 3000 DCS systems. Hardware Specifications Parameter Specification Model Brand Yokogawa Origin Japan Weight 0.5 kg Dimensions Standard DCS module size Operating Temp 0 to 50 degC Power Consumption Low-profile design Number of Channels 32 points Input Type Digital signal interface / Dry contact support Signal Level Compatibility TTL level compatible ON/OFF State Thresholds ON: ≤200 ohm, OFF: ≥100 kOhm System/Operating Voltage 24 VDC Current Rating 20 mA per point Contact Rating 5 VDC / Minimum current 20 mA Power Supply (Internal) 5 VDC Heat Dissipation Factor 0.6 A Ambient Humidity 10% to 95% RH, non-condensing Mounting Compatibility Card box AMN33 compatible Certifications CE, UL, CSA Process Control Specific Features The ADM12T incorporates channel-to-channel isolation to prevent signal interference between digital inputs. It supports 4-20 mA HART loop protocol conversion for hybrid analog-digital systems. The terminal board design enables cold junction compensation (CJC) compliance for precise low-voltage input monitoring. Integration with CENTUM CS 3000 allows direct DCS processing of ON/OFF status without intermediate signal conditioning. Frequently Asked Questions Q: Can the ADM12T module be hot-swapped in an operating card box?A: Hot-swap is not recommended; the module must be powered down prior to removal or insertion to avoid input logic corruption. Q: What is the maximum current load per input channel?A: Each input channel is rated for 20 mA. Exceeding this may affect isolation integrity and signal detection. Q: How does the module handle electrical noise from field devices?A: Each channel includes galvanic isolation and TTL-level filtering to maintain signal integrity under standard industrial interference conditions. Field Installation Guidelines Mount the module in an AMN33-compatible card box ensuring secure retention. Connect external dry contacts or TTL-level devices directly to terminal points following polarity labeling. Maintain proper separation between input signal wiring and power/relay lines to minimize induced noise. Ground the terminal board shielding to the local plant ground according to standard industrial practice. Verify system voltage is 24 VDC prior to applying power to avoid module damage.
$200.00 $100.00
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Yokogawa Yokogawa ADM52C Analog Recorder | 3 channels
Yokogawa ADM52C S3 Analog Recorder Configured for continuous process signal recording in analog acquisition systems, the Yokogawa ADM52C S3 (ADM52C S3 Analog Recorder) provides direct physical/electrical execution of multi-channel measurement logging across DC voltage, DC current, thermocouple, and RTD input interfaces. Suffix Breakdown & Model Matrix ADM52C: Base recorder series designation (as provided) S3: Revision / configuration suffix (not further specified in provided technical data) No additional factory-defined decoding information is available in the supplied dataset. Hardware Specifications Parameter Specification ModelBrand Yokogawa ADM52C S3 Origin Not specified Weight Approx. 3.5 kg Dimensions 144 x 144 x 265 mm (panel cutout 138 x 138 mm) OperatingTemp 0 to 50 degC PowerConsumption Not specified Input Channels 3 channels Recording Method Dot line recording with dual pens Chart Speed 10 to 100 mm/h (6 selectable steps) Input Types DC voltage, DC current, thermocouple, RTD Accuracy +/-0.1% of span Power Supply 100 to 240 VAC, 50/60 Hz Channel-to-Channel Isolation and Input Conditioning (Yokogawa Process Recorder Architecture) The input architecture implements isolated measurement front-ends for each acquisition channel, supporting mixed-signal conditioning across voltage, current, and resistance temperature devices. Thermocouple and RTD inputs rely on internal compensation routines consistent with cold junction compensation (CJC) principles for stable reference junction handling. Signal routing is optimized for low drift analog amplification prior to mechanical chart recording via dual-pen dot line mechanism. Frequently Asked Questions Q: Can the ADM52C S3 simultaneously process mixed input types across channels?A: Yes. Each channel supports independent configuration for DC voltage, DC current, thermocouple, or RTD input types. Q: What is the impact of chart speed selection on data resolution?A: Chart speed (10 to 100 mm/h in 6 steps) directly affects temporal resolution of recorded traces; higher speed increases time-axis granularity. Q: Does the device require external signal conditioning modules?A: No external conditioning is required for standard supported inputs; internal scaling and isolation are integrated at channel level. Field Installation Guidelines Mount unit in a standard panel cutout of 138 x 138 mm with secure mechanical fixation to prevent vibration-induced chart distortion Maintain wiring separation between signal input lines and AC power supply (100 to 240 VAC) to reduce electromagnetic coupling Ensure thermocouple and RTD wiring uses appropriate compensation conductors and correct polarity alignment Confirm ambient operating conditions remain within 0 to 50 degC range for mechanical recorder stability Provide adequate rear clearance for ventilation and terminal access during maintenance operations
$200.00 $100.00
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Yokogawa Contact Input Module | Yokogawa ADM12 | Digital Input Modules
Yokogawa ADM12 Contact Input Module TheYokogawa ADM12also cataloged astheADM12 Contact Input Module, operates as a dedicated hardware component for processing discrete ON/OFF field signals withinYokogawa Centum CS and Centum VP control systems. It interfaces directly with dry contact devices such as limit switches and proximity sensors, converting physical contact states into system-level digital input states through a 16-point input architecture. Signal acquisition is executed via a 16-pin connector interface with backplane-integrated system power distribution. HardwareSpecifications Parameter Specification ModelBrand Yokogawa ADM12 Origin Japan Weight 0.1 kg Dimensions 2.5 cm x 22.9 cm x 7.6 cm OperatingTemp Not specified PowerConsumption Supplied via system backplane Input Type Contact input (ON/OFF digital) Channels 16 points Connector Type 16-pin connector System Compatibility Centum CS / Centum VP Channel-to-Channel Isolation and Digital Signal Conditioning (Yokogawa DCS Architecture) The ADM12 implements discrete input conditioning aligned with Yokogawa distributed control topology. Each input channel is routed through isolated sensing stages to reduce electrical interference between field wiring groups. The module is designed for stable interpretation of dry contact transitions under electrically noisy industrial cabinet environments. Signal registration is synchronized with the system scan cycle of the Centum controller backplane, ensuring deterministic ON/OFF state updates for logic execution and interlocking routines. FrequentlyAskedQuestions Q: Does the ADM12 support hot-swap operation in Centum VP racks?A: Hot-swap capability is dependent on the specific I/O rack configuration. Electrical isolation from field wiring must be maintained before module removal. Q: What is the backplane load behavior during full 16-point activation?A: The module draws power from the system backplane; load distribution is managed at rack level rather than per-channel switching events. Q: Are input channels electrically isolated from each other?A: Channel grouping isolation is implemented at the input conditioning stage to reduce cross-interference between field signal lines. FieldInstallationGuidelines Install module only on compatible Yokogawa DIN rail or dedicated I/O rack assemblies Ensure all field wiring is de-energized prior to connector insertion or removal Maintain separation between input signal wiring and high-voltage or switching power cables Use shielded cable where applicable and terminate shields at single-point ground within cabinet Verify correct seating of 16-pin connector to avoid partial contact conditions Confirm system backplane power integrity before commissioning
$200.00 $100.00
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Yokogawa Contact Output Module | Yokogawa ADM52C-2S3
Yokogawa ADM52C-2S3 Contact Output Module Configured for on/off discrete signal execution in Yokogawa CENTUM VP and DCS backplane environments, the Yokogawa ADM52C-2S3 (ADM52C-2) Contact Output Module provides direct relay contact switching for field actuators and interposing relays across 32 independent output points. SuffixBreakdown & Model Matrix No manufacturer-provided structured suffix decomposition for ADM52C-2S3 is available in the supplied dataset. The full orderable identifier is treated as a single configuration code within the ADM52C-2 series family. Hardware Specifications Parameter Specification ModelBrand Yokogawa ADM52C-2S3 Origin Japan Weight 0.29 kg Dimensions 2.5 cm x 22.9 cm x 7.6 cm OperatingTemp -10 degC to 60 degC PowerConsumption 5 W (typical) Output Type Relay contact Output Points 32 channels Rated Load Voltage 250 VAC Rated Load Current 2 A per channel Input Voltage 24 VDC nominal Input Current 6 mA per channel (typical) Response Time < 1 ms Isolation Optical isolation (channel/system separation) Channel-to-Channel Isolation and Discrete Output Execution The ADM52C-2S3 implements optically isolated output stages to decouple control backplane logic from field switching transients. Each of the 32 relay outputs operates as a galvanically separated switching node, reducing cross-channel coupling during inductive load switching such as solenoids or valve coils. The relay architecture supports direct interface to 250 VAC loads with 2 A switching capacity per point, requiring external suppression networks for highly inductive loads to maintain contact life stability. Frequently Asked Questions Q: Can the ADM52C-2S3 outputs be hot-swapped under load conditions?A: Hot-swap is not supported for individual relay channels under energized load conditions. Backplane removal requires de-energization to prevent contact arcing and module damage. Q: What is the electrical isolation boundary in this module?A: Isolation is implemented between field output channels and system logic via optical isolation. Each relay output provides physical separation from the internal control circuitry. Q: Does the module support inductive load switching directly?A: Inductive loads are supported within rated limits; however, external snubber or flyback suppression is required to reduce contact wear and switching transients. Field Installation Guidelines Install module on a grounded DCS rack backplane compatible with Yokogawa CENTUM VP I/O slots. Maintain separation between high-voltage field wiring (up to 250 VAC) and low-voltage 24 VDC control wiring. Use twisted pair or shielded conductors for field wiring when routed in high EMI environments. Ensure proper earth grounding of cabinet to maintain optical isolation effectiveness. Verify load current per channel does not exceed 2 A continuous rating. Provide external suppression (RC snubber or diode networks where applicable) for inductive field devices.
$200.00 $100.00
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Yokogawa Yokogawa ADM12C Contact Input Module-I/O module
Yokogawa ADM12C Contact Input Module The Yokogawa ADM12C is a robust contact input module designed for monitoring and controlling digital signals in industrial applications. With its capability to handle 32 digital inputs, it offers reliable performance for tracking the status of various external devices or processes. Hardware Specifications Parameter Specification Model ADM12C Brand Yokogawa Origin Japan Weight 1.5 kg Dimensions Not specified OperatingTemp Not specified PowerConsumption 600 mA max at 5.0 VDC Input Channels 32 points Input Type Dry contact (ON/OFF) Contact Rating 5 VDC, 20 mA min Pulse Width 40 ms min Pulse Frequency 10 Hz max Signal Isolation Common minus every 16 points Installation I/O module nest mounted Field Connection KS9 / KS10 cable via TE32 Channel-to-Channel Isolation Architecture (Yokogawa DCS Behavior) The ADM12C implements grouped isolation segmentation with a shared negative reference per 16 input channels. This architecture reduces cross-channel coupling during simultaneous switching events in dense contact scanning environments. Within CENTUM CS I/O scanning cycles, discrete input sampling is synchronized through backplane polling, while input debounce is handled at hardware filter level (minimum 40 ms pulse discrimination). Signal integrity is maintained through: Partitioned return reference structure (16-channel grouping) Internal filtering for contact chatter suppression Connector-based wiring reduction of termination impedance variation Backplane-level scan synchronization within DCS node cycle Frequently Asked Questions Q1: Does ADM12C support hot-swap insertion in live I/O nests?A1: Hot-swap capability is dependent on the specific CENTUM I/O nest configuration. Electrically, the module is not designed for signal-side live reconnection; insertion/removal should follow backplane power isolation procedures. Q2: How is input noise filtered at hardware level?A2: The module applies a minimum 40 ms input pulse width constraint, rejecting transient contact bounce and short-duration electrical noise below this threshold. Q3: What is the isolation boundary inside the module?A3: Isolation is implemented as grouped common-minus segmentation per 16 channels, reducing shared reference interference between channel groups. Field Installation Guidelines Install module only in compatible CENTUM CS I/O nests designed for ADM-series hardware Ensure KS9 / KS10 cable routing maintains separation from high-voltage switching conductors Verify TE32 terminal board seating before connector engagement Maintain shield continuity on field cable assemblies where applicable Do not exceed specified contact rating of 5 VDC / 20 mA per input channel Observe backplane power rating limits (600 mA at 5.0 VDC per module) Secure module firmly in rack slot to avoid connector stress under vibration conditions
$200.00 $100.00
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Yokogawa Contact Input Module | ADM11 Yokogawa | Digital Input Modules
Yokogawa ADM11 Contact Input Module Configured for discrete contact signal acquisition in CENTUM VP distributed control architecture, the Yokogawa ADM11 (ADM11) contact input module provides direct electrical state conversion from field dry-contact or DC switching devices into DCS-readable digital status signals. Suffix Breakdown & Model Matrix ADM11 is a fixed model identifier. No manufacturer-published suffix segmentation or option code structure is defined for this module. Hardware Specifications Parameter Specification ModelBrand Yokogawa ADM11 Origin Japan Weight 0.25 lbs (approx. 0.11 kg) Dimensions Not specified by manufacturer OperatingTemp 0 degC to 60 degC PowerConsumption Low power consumption (no numeric value specified) Channels 16 isolated contact input channels Input Voltage Range 4 to 32 VDC System Compatibility CENTUM CS / CENTUM CS 3000 / CENTUM VP Installation Type DIN rail / rack-mounted I/O structure Isolation Galvanic isolation per input channel Yokogawa Channel Isolation and Field Signal Conditioning Architecture The ADM11 implements per-channel galvanic isolation to decouple field-side switching circuits from internal backplane logic. Each input channel is independently conditioned to suppress ground loop coupling and cross-channel electrical interference during simultaneous switching events. The input detection circuit is optimized for DC contact closure states within the 4 to 32 VDC range, allowing stable state recognition under variable field wiring impedance conditions. Backplane communication is synchronized with CENTUM VP I/O scanning cycles, ensuring deterministic update of digital state transitions. Frequently Asked Questions Q: Can the ADM11 operate with dry contact inputs without external excitation voltage?A: The module supports dry contact detection, but field loop excitation requirements depend on system wiring topology and external power provisioning. Q: Does each channel support independent isolation?A: Yes. Each input channel is galvanically isolated to reduce inter-channel electrical interference and protect backplane circuitry. Q: What happens during backplane communication interruption?A: Input states are held in last valid condition until communication recovery, depending on controller configuration and scan handling mode. Field Installation Guidelines The ADM11 shall be installed in a standard Yokogawa I/O rack or compatible DIN rail assembly aligned with CENTUM VP system architecture. Field wiring must maintain segregation between input signal cables and power conductors to reduce induced noise coupling. Shield termination should be performed at a single ground reference point within the control cabinet to avoid loop current formation. Tightening torque for terminal blocks shall follow Yokogawa installation practice guidelines for secure contact integrity. Hot insertion is not recommended unless the specific rack system explicitly supports live module replacement.
$200.00 $100.00
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Yokogawa Communication Card Nest AMN51 | Yokogawa
Yokogawa AMN51 Communication Card Nest Configured for physical mounting and backplane electrical execution in CENTUM Distributed Control System (DCS) communication architectures, the Yokogawa AMN51 (AMN51 Communication Card Nest) provides direct mechanical and electrical accommodation for communication interface cards within Yokogawa field control nodes. The module functions as a backplane-mounted nest structure for communication cards, enabling BN-bus based internal data exchange between installed communication modules and Field Control Station or Node Interface Unit CPU resources. It is intended for structured card insertion, power distribution at 5.0 VDC logic level, and controlled signal routing within CENTUM CS/VP system racks. Suffix Breakdown & Model Matrix AMN51 is a single fixed model designation. No documented factory suffix segmentation or ordering matrix breakdown is defined in the provided specification set. No additional variant decoding is applied. Hardware Specifications Parameter Specification Model / Brand Yokogawa AMN51 Origin Japan Weight Max 2.5 kg (without I/O modules) Dimensions 137.5 mm (W) x 225 mm (D) x 254 mm (H) Operating Temp Not specified (system dependent installation environment) Power Consumption 5.0 VDC supply via Node Interface Unit or Field Control Station Backplane Interface BN-bus communication path to CPU/communication cards Installation Targets Node Interface Unit, I/O Expansion Rack, PFCS/PFCD Yokogawa DCS Communication Backplane Integration Characteristics The AMN51 nest implements structured communication card accommodation within Yokogawa CENTUM architectures, supporting BN-bus backplane coupling between communication modules and central processing resources. The design aligns with process control data handling requirements such as 4-20 mA loop interfacing and HART protocol aggregation at system integration level. Channel-level signal routing is handled through installed communication cards, while the nest provides controlled mechanical alignment and electrical continuity for multi-slot configurations. In CENTUM environments, this structure supports field network expansion including FOUNDATION Fieldbus and PROFIBUS PA via compatible communication modules, depending on system configuration. Frequently Asked Questions Q: Can the AMN51 support hot-swap of communication cards?A: Hot-swap capability depends on the installed communication module and system configuration. The nest itself provides physical slot support but does not independently manage live insertion control logic. Q: What limits apply to backplane electrical loading?A: Backplane loading is determined by the Node Interface Unit or Field Control Station power budget at 5.0 VDC. The AMN51 only distributes this supply across installed card slots. Q: Is firmware handling performed at the nest level?A: No firmware execution occurs in the AMN51. Firmware management is handled by installed communication modules or CPU-level system components. Field Installation Guidelines The AMN51 shall be installed within designated Yokogawa Node Interface Units or Field Control Station racks using standardized mounting rails. Mechanical fixation must ensure full backplane connector engagement without lateral stress on card edge connectors. Signal and power integrity depends on correct grounding of the cabinet chassis. Shield continuity shall be maintained across rack frames to reduce electromagnetic coupling into BN-bus communication lines. Cable routing must avoid parallel high-voltage conductors to minimize induced noise on communication paths. Card insertion shall be performed with power removed unless system design explicitly supports live insertion at the controller level. Ensure all communication cards are fully seated to maintain consistent backplane contact resistance.
$200.00 $100.00
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Yokogawa AMN34 Analog Input Module Nest | Yokogawa
Yokogawa AMN34 Analog Input Module Nest Configured for analog signal interfacing and module accommodation in CENTUM CS 1000 and CENTUM CS 3000 systems, the Yokogawa AMN34 (AMN34 Analog Input Module Nest) provides direct physical/electrical execution for multipoint analog I/O module integration within Yokogawa DCS backplane environments. Suffix Breakdown & Model Matrix AMN34 is a fixed single-model designation. No validated sub-suffix segmentation or ordering matrix is defined in the provided documentation. Hardware Specifications Parameter Specification ModelBrand Yokogawa AMN34 Origin Japan Weight Approx. 1.2 kg Dimensions Approx. 15.2 cm x 12.7 cm x 25.4 cm OperatingTemp -10 degC to 55 degC PowerConsumption Not specified Input Interface Analog I/O module backplane interface Compatible Systems CENTUM CS 1000 / CENTUM CS 3000 / CENTUM VP Module Capacity Up to 2 multipoint analog I/O modules Mounting Type Rack / Panel / Cabinet mounting DCS Signal Conditioning and Channel Isolation Architecture The AMN34 backplane architecture is designed for analog signal routing with channel-to-channel isolation to minimize cross-channel interference in high-density I/O configurations. In CENTUM CS architectures, isolation barriers are implemented at the module interface level to maintain signal integrity across mixed voltage (±10 V) and current (4-20 mA) loops, reducing coupling effects on adjacent measurement channels under dense cabinet layouts. Yokogawa Analog Loop Interface Characteristics The module base supports analog field interfaces commonly used in 4-20 mA loop circuits and voltage input scaling networks within Yokogawa CENTUM systems. Signal acquisition paths are designed to maintain stable conversion performance for RTD inputs (Pt100, Ni120, Cu50) and standard process instrumentation loops, ensuring consistent A/D conversion behavior across mixed signal types within a single chassis assembly. Frequently Asked Questions Q: Can AMN34 support hot-swapping of installed analog I/O modules?A: Module replacement is system-dependent and requires verification of CENTUM system configuration state and backplane isolation status before physical insertion or removal. Q: Does the AMN34 backplane impose load limitations on analog signal channels?A: The backplane provides passive routing; electrical loading is primarily determined by installed analog input modules rather than the AMN34 base structure. Q: Is firmware level synchronization required between AMN34 and I/O modules?A: The AMN34 itself does not contain firmware; compatibility is governed by the installed CENTUM system and associated I/O module firmware versions. Field Installation Guidelines Install within approved control cabinet rack assemblies with stable mechanical grounding. Maintain separation between analog signal wiring and high-voltage or switching lines to reduce induced noise coupling. Ensure shielded cable termination follows single-point grounding practice at cabinet earth reference. Verify module seating alignment before energizing backplane power rails. Avoid mechanical stress on connector interfaces during insertion of I/O modules into the nest structure. Maintain ventilation clearance within cabinet design limits to prevent localized thermal accumulation.
$200.00 $100.00
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Yokogawa AMN21 | Yokogawa Relay I/O Module Nest
Yokogawa AMN21 Relay I/O Module Nest The Yokogawa AMN21 nest, also cataloged as the AMN21 Relay I/O Module Nest, operates as a dedicated hardware component for relay signal switching within CENTUM CS1000, CS3000, and CENTUM VP control platforms. It provides structured electrical and mechanical support for multiple relay I/O modules, ensuring isolated channel-to-channel signal operation. HardwareSpecifications Parameter Specification ModelBrand Yokogawa AMN21 Origin Japan Weight 2.0 kg (without modules) Dimensions Standard Yokogawa relay nest size OperatingTemp -10 degC to 60 degC StorageTemp -20 degC to 70 degC Humidity 10% to 90% RH, non-condensing PowerConsumption 24 VDC / 110 VAC / 220 VAC RelayCapacity 2 A @ 250 V AC / 30 V DC per relay SystemCompatibility CENTUM CS1000, CS3000, CENTUM VP ModuleSupport Standard Yokogawa Relay I/O Modules MountingOptions 19-inch rack or cabinet mount MaterialBuild Industrial-grade plastic and anti-corrosive metal alloy Certifications CE, RoHS ProcessControlTechnicalFeatures Channel-to-Channel Isolation: Electrical separation ensures minimal cross-talk between adjacent relay modules, protecting signal integrity in complex I/O configurations. 4-20 mA HART Loop Protocol Compatibility: Supports interfacing with analog transmitters for process control feedback and monitoring. Cold Junction Compensation (CJc): Maintains accurate relay actuation in environments with fluctuating cabinet temperatures. FrequentlyAskedQuestions Q: VnA: Can modules be hot-swapped while the AMN21 is powered?A: Hot-swapping is not recommended; modules should only be inserted or removed with power removed to avoid backplane voltage transients. Q: VnA: What is the typical relay switching delay?A: Switching delay is primarily determined by the relay coil response, typically in the millisecond range per module datasheet. Q: VnA: Does the AMN21 support both AC and DC relay loads simultaneously?A: Yes, provided each relay channel is connected within its rated voltage and current specification limits. FieldInstallationGuidelines Mount the AMN21 in a stable rack or cabinet, ensuring at least 50 mm clearance for airflow. Connect power supply lines to the appropriate 24 VDC or AC terminals, observing polarity. Ensure shielded wiring for field inputs and outputs is properly grounded to reduce EMI. Protect empty slots with dummy covers to prevent dust and humidity ingress. Route signal wiring separately from high-current power lines to maintain channel isolation.
$200.00 $100.00
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Yokogawa AMN33 | Yokogawa Nest for Communication Modules
Yokogawa AMN33 Nest for Communication Modules The Yokogawa AMN33-S2, also cataloged as the AMN33 Nest for Communication Modules, operates as a dedicated hardware component for managing communication module integration within CENTUM CS 1000, CS 3000, and VP distributed control systems. It provides a robust mechanical and electrical platform for modular signal routing and subsystem interconnection. HardwareSpecifications Parameter Specification ModelBrand Yokogawa AMN33 Origin Japan Weight 1.2 kg (unloaded) Dimensions 127 mm × 152 mm × 254 mm OperatingTemp 0 to 50 degC (operating), -40 to 85 degC (storage) PowerConsumption 3.5-5.0 W (nest only, modules excluded) SupportedModules ACM12, communication subsystem modules InputType Voltage, Current, RTD InputVoltageRange ±10 V to ±100 V InputCurrentRange 4-20 mA RTDTypes Pt100, Ni120, Cu50 Accuracy ±0.05% of full scale Resolution 16 bits SamplingRate 100 samples/sec ElectricalIsolation >100 MΩ at 500 VDC HumidityLimits 5-95% RH, non-condensing MechanicalShock Up to 10 G operational shock Vibration 1.5 G continuous, 10-150 Hz ProcessControl-DCSConnectivityFeatures Supports 4-20 mA HART loop protocol for analog signal integration. Provides channel-to-channel isolation to prevent signal interference between communication modules. Compatible with FOUNDATION Fieldbus and Profibus PA connectivity for subsystem integration. Cold junction compensation (CJc) is supported for RTD measurements to maintain thermal accuracy. FrequentlyAskedQuestions Q: Does the AMN33 support hot-swap of communication modules?A: The unit requires modules to be powered down prior to installation or removal; it does not support hot-swap of internal communication modules. Q: What is the maximum internal bus current available for installed modules?A: The internal backplane supplies up to 5.0 W per nest overhead; modules should be accounted for separately to avoid exceeding the bus capacity. Q: Is firmware on the communication modules updated via the AMN33?A: Firmware updates are managed through the host DCS interface; the AMN33 itself does not perform firmware flashing. FieldInstallationGuidelines Mount the AMN33 on standard DIN or panel fixtures ensuring the chassis is properly grounded. Maintain at least 50 mm spacing from heat-generating devices to avoid thermal accumulation. Route signal cables using shielded conduits; connect shields to ground at a single point to prevent ground loops. Verify orientation of modules and secure locking mechanisms to avoid vibration-induced disconnection. Avoid crossing power and signal lines in tight proximity to reduce electromagnetic interference.
$200.00 $100.00
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Yokogawa Yokogawa Annunciator Modules | AMN31-24 VDC supply
Yokogawa AMN31 Annunciator Module The Yokogawa AMN31 (base model AMN31) serves as the primary annunciator module utilized to execute visual and audible alarm signaling across CENTUM VP and ProSafe-RS platforms. Hardware Specifications Parameter Specification Model Brand Yokogawa AMN31 Origin Japan Weight 1.5 kg Dimensions 144 mm (W) × 144 mm (H) × 150 mm (D) Operating Temp 0 to 50 degC Storage Temp -20 to 70 degC Humidity 10% to 90% non-condensing Power Consumption 24 VDC supply Display High-resolution color display Alarm Types Visual and audible Alarm Priorities Multiple levels Customization Configurable alarm messages and settings System Compatibility CENTUM VP, ProSafe-RS DCS Process Control Features Supports process control and DCS instrument integration: The AMN31 maintains channel-to-channel isolation to prevent signal interference between simultaneous alarms. Compatible with 4-20 mA HART loops, the module ensures consistent alarm propagation and monitoring across networked DCS instruments. Cold junction compensation (CJC) is integrated for accurate thermocouple signal display. Frequently Asked Questions Q: VnA: Does the AMN31 support hot-swap of internal components?A: No, the AMN31 annunciator module does not support hot-swap. All maintenance should be performed with power isolated. Q: VnA: Can the module operate with both CENTUM VP and ProSafe-RS networks simultaneously?A: The AMN31 can interface with either system individually. It cannot bridge simultaneous communications between both DCS networks. Q: VnA: How are alarm priorities configured?A: Alarm priorities are set via the system engineering tool and stored in the module’s internal memory. Physical panel adjustments are not supported. Field Installation Guidelines Mount module on a flat surface or panel with adequate ventilation around all sides. Connect 24 VDC power supply via approved industrial wiring practices. Ensure correct polarity. Maintain separation between signal wiring and high-voltage AC lines to reduce EMI. Ground shielded alarm cables to a single reference point at the control panel to prevent ground loops. Verify environmental conditions: operating temp 0-50 degC, humidity 10-90% non-condensing. Confirm alarm message configuration through the DCS engineering workstation before final commissioning.
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Yokogawa Yokogawa Communication Interface Modules | AMN12T
Yokogawa AMN12T Interface Module Configured for deterministic communication interface bridging in Yokogawa V net control network within CENTUM DCS, the Yokogawa AMN12T (AMN12T Interface Module) provides direct physical/electrical execution. Suffix Breakdown & Model Matrix No formal suffix segmentation or functional sub-variant decoding is defined for AMN12T in the provided specification set. The module designation is treated as a single fixed hardware identifier. Hardware Specifications Parameter Specification ModelBrand Yokogawa AMN12T Origin Japan OperatingTemp 0 to 50 degC PowerConsumption Low power, supplied via system backplane (exact value not specified) Communication Protocol V net token-passing network Network Topology Dual redundant ring support Isolation Galvanic isolation between network and internal circuitry Installation Slot Yokogawa FCS / control station baseplate compatible Diagnostic Interface Onboard LED status indicators V net Communication and Channel Isolation Characteristics The AMN12T implements deterministic token-passing communication within the V net architecture used in Yokogawa distributed control systems. Frame arbitration is managed via sequential token circulation, preventing bus contention under multi-node loading conditions. Channel-to-channel separation is maintained through internal galvanic isolation barriers, reducing noise coupling between communication lanes and control backplane logic domains. Redundant network operation is supported through dual-port physical connectivity, allowing continuous data propagation in the event of a single media path interruption. Module-level diagnostics are exposed through status LEDs and system-level engineering tools within CENTUM configuration environments. Frequently Asked Questions Q: Can the AMN12T be hot-swapped during runtime operation?A: Hot-swap capability depends on the host FCS architecture. In supported baseplate configurations, replacement is permitted under controlled maintenance mode with network redundancy active. Q: What is the effect of removing one network channel in redundant mode?A: The module continues communication via the remaining channel without protocol interruption, provided redundancy configuration is enabled at system level. Q: Does the module require external termination for V net wiring?A: Termination requirements are defined by the overall V net segment topology rather than the module itself and must follow Yokogawa network installation rules. Field Installation Guidelines Ensure installation is performed with system power isolated unless the baseplate supports live insertion. Insert the AMN12T module fully into the designated communication slot until mechanical latch engagement is confirmed. Maintain separation between V net communication cabling and high-voltage or high-noise power conductors. Shielding continuity must be preserved and grounded at a single reference point per network segment to avoid ground loop formation. Verify redundant network cabling polarity and continuity prior to commissioning. Use only approved Yokogawa baseplate connectors to ensure backplane alignment integrity.
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Yokogawa Yokogawa Modular Data Acquisition Systems | AMN32T
Yokogawa AMN32T Modular Data Acquisition and Control System Configured for multi-channel signal routing and I/O consolidation in CENTUM CS, CENTUM CS 1000, and CENTUM CS 3000 platforms, the Yokogawa AMN32T (AMN32T Modular Data Acquisition and Control System) provides direct physical/electrical execution of connector-based analog and digital field termination within distributed control architectures. Hardware Specifications Parameter Specification ModelBrand Yokogawa AMN32T Origin Japan OperatingTemp -10 degC to +50 degC (field cabinet dependent) PowerConsumption Supplied via DCS backplane, not independently rated Analog Input Channels Up to 32 channels (module dependent) Analog Output Channels Up to 32 channels (module dependent) Digital I/O Channels Up to 16 channels Analog Input Resolution 16-bit Analog Output Resolution 12-bit Input Voltage Range -10 V to +10 V (analog), 0 to 5 V (digital) Output Voltage Range 0 V to 10 V (analog), 0 to 5 V (digital) Sampling Rate Up to 100 kHz per channel Communication Interfaces Ethernet, USB, GPIB (system dependent integration layer) Slot Architecture 4-slot I/O module carrier Process Control I/O Interface and Signal Routing Characteristics The AMN32T implements connector-based I/O aggregation for Yokogawa CENTUM DCS environments, with native support for multi-pin harness termination replacing discrete terminal wiring. Signal routing is performed through high-density backplane interconnects, reducing field wiring density at cabinet entry points. Channel-level processing supports analog signal acquisition with 16-bit resolution and output generation with 12-bit DAC conversion. The module interface is designed for multi-channel synchronization under centralized scan cycles defined by the host DCS controller. Electrical separation between I/O groups is implemented at module boundary level, supporting channel grouping for mixed analog/digital configurations. Integration with 4-20 mA loop infrastructure and HART-capable field transmitters is handled at the upstream I/O module layer (not within the nest itself). Frequently Asked Questions Q: Does AMN32T support hot-swap of I/O modules under power?A: Module insertion is system dependent. In CENTUM CS architectures, removal under load requires controller-side maintenance mode to avoid backplane signal interruption. Q: What is the backplane current limitation per slot?A: Backplane current limits are defined by the host I/O module specification rather than the AMN32T nest. The nest itself provides passive routing only. Q: Can AMN32T mix analog and digital modules in the same rack?A: Yes. Slot architecture supports mixed I/O configurations provided module addressing is consistent with system configuration rules. Field Installation Guidelines AMN32T must be installed in a grounded control cabinet with defined DIN rail or rack mounting alignment. Shielded cable assemblies should be terminated at connector interfaces with 360-degree grounding at cabinet entry points. Signal cables must be routed separately from power conductors to reduce induced noise coupling. Minimum bend radius should follow cable assembly specification from Yokogawa system cabling standards. Backplane connectors must be seated fully without mechanical stress on locking tabs. Vibration isolation is recommended for high-density cabinet installations to prevent intermittent contact degradation over time.
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