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
-
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
-
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
-
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
-
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
-
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
-
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.
$200.00 $100.00
-
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.
$200.00 $100.00
-
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.
$200.00 $100.00
-
Yokogawa Yokogawa AMN32 Connector I/O Module Nest
Yokogawa AMN32 Connector I/O Module Nest Configured for field signal aggregation in CS1000 and CS3000 distributed control systems, the Yokogawa AMN32 (AMN32 Nest for Connector I/O Module) provides direct physical/electrical execution for multi-channel I/O termination across Yokogawa CENTUM CS architectures. The unit implements a connector-based backplane interface using 32-pin female connectors to route process signals from field wiring assemblies into modular I/O processing nodes. It supports compact rack-based installation with a 4-slot structural layout and fixed-density signal routing. Suffix Breakdown & Model Matrix No suffix or variant structure is defined for the AMN32 model in the provided technical documentation. The designation is treated as a single fixed hardware identifier without sub-revision segmentation or configurable ordering matrix. Hardware Specifications Parameter Specification ModelBrand Yokogawa AMN32 Origin Japan Weight 1.83 lbs Dimensions 15.2 cm x 12.7 cm x 25.4 cm OperatingTemp Not specified PowerConsumption Not specified Product Type Nest for Connector I/O Module Slot Configuration 4-slot rack architecture Connector Interface 32-pin female connectors System Compatibility CS1000, CS3000 Process Control I/O Connector Architecture The AMN32 operates within Yokogawa DCS process control topology where field signals are consolidated through high-density connector termination rather than discrete screw terminals. Signal routing supports standardized 4-20 mA loop interfaces and digital I/O mapping into CS-series control stations. The connector backplane design reduces intermediate wiring points between field junction assemblies and control node input stages, maintaining fixed impedance paths for analog signal integrity within cabinet-level distribution. Frequently Asked Questions Q: Does the AMN32 support hot-swap of connected I/O modules?A: No hot-swap function is defined at the nest level. Module replacement requires system power isolation or loop-specific bypass depending on CS3000 cabinet configuration. Q: What is the backplane electrical load limitation for the AMN32 rack?A: Backplane current limits are determined by the installed CS system rack power architecture rather than the AMN32 itself. The nest provides passive signal routing only. Q: Can mixed analog and digital I/O be used within the same 4-slot configuration?A: Yes, provided the installed I/O modules are compatible with CS1000/CS3000 channel mapping rules and connector pin assignments. Field Installation Guidelines The AMN32 shall be installed in a controlled cabinet environment using standardized rack mounting rails. Ensure all 32-pin connectors are fully seated with aligned keying to prevent pin offset during insertion. Shielded field cables should maintain continuous grounding at the cabinet entry point to minimize common-mode noise coupling across adjacent I/O channels. Maintain separation between power conductors and signal harnesses to reduce induced interference on low-level analog loops. Verify mechanical retention of the 4-slot chassis before energizing associated control system backplanes.
$200.00 $100.00
-
Yokogawa Yokogawa AMN11 Analog I/O Module Nest
Yokogawa AMN11 Analog I/O Module Nest The Yokogawa AMN11, also cataloged as the AMN11 Analog I/O Module Nest, operates as a dedicated hardware component for analog signal acquisition and control within Centum CS and Centum VP systems. It provides direct electrical execution of 16-slot modular arrangements for voltage, current, and RTD signals with centralized backplane routing and power distribution. HardwareSpecifications Parameter Specification ModelBrand Yokogawa AMN11 Origin Japan Weight 1.9 kg (4 lbs 4 oz) Dimensions 5.0" × 8.0" × 10.0" (12.7 cm × 20.3 cm × 25.4 cm) OperatingTemp 0 degC to 55 degC PowerConsumption 24 VDC supply SlotCapacity 16 Analog I/O modules SupportedSignalTypes Voltage, Current (4-20 mA), RTD SignalAccuracy ±0.1% of full scale BackplaneFunctions DC power distribution and high-speed data bus routing IndustrialDurability Heavy-duty casing for harsh industrial environments ProcessControlTechnicalFeatures 4-20 mA HART Loop Protocol Support: Each module slot accommodates standard 4-20 mA analog signals with HART communication for device-level diagnostics. Channel-to-Channel Isolation: Electrical isolation is provided between all adjacent channels to minimize interference and maintain signal integrity. Cold Junction Compensation (CJc): Built-in CJc circuitry ensures RTD and thermocouple measurements remain accurate across temperature variations. FrequentlyAskedQuestions Q: What is the maximum hot-swap limit for AMN11 modules?A: Individual analog I/O modules can be removed or inserted while the rack is powered, provided the protective front cover is in place and standard ESD precautions are observed. Q: How is backplane current distribution managed under full slot load?A: The 24 VDC backplane distributes power across all 16 slots, with each slot supporting typical analog module current draw up to rated specifications without exceeding thermal limits. Q: Can firmware updates be performed on installed I/O modules without power cycling the AMN11?A: Firmware updates require module-specific procedures; the AMN11 backplane supports stable communication but modules may need isolated power removal for certain firmware flash operations. FieldInstallationGuidelines Mount the AMN11 rack on a stable surface or cabinet, ensuring vertical orientation for airflow. Ground the protective casing to prevent electrical noise and ensure channel-to-channel isolation. Route analog signal cabling to avoid parallel runs with high-current power lines to minimize interference. Ensure ambient temperature remains within 0 degC to 55 degC and relative humidity within 5% to 95%. Verify 24 VDC power supply polarity before connection and confirm secure backplane engagement for all installed modules.
$200.00 $100.00
-
Yokogawa Yokogawa AAM11B Current/Voltage Input Module
Yokogawa AAM11B Current/Voltage Input Module Configured for analog signal acquisition of 4-20 mA DC and 1-5 V DC field signals in Yokogawa CENTUM DCS I/O subsystems, the Yokogawa AAM11B (AAM11B) Current/Voltage Input Module provides direct electrical conditioning and A/D conversion for multi-channel process input acquisition within Node Interface Unit architectures. Suffix Breakdown & Model Matrix AAM: Analog input module family for current/voltage acquisition 11: Channel and functional generation identifier within AAM series B: Variant with BRAIN communication capability and enhanced field device interfacingNo additional structured suffix segmentation is defined in manufacturer documentation. Hardware Specifications Parameter Specification ModelBrand Yokogawa AAM11B Origin JAPAN Weight Up to 2 kg (without I/O modules) Dimensions 125 mm x 130 mm x 248 mm OperatingTemp Not specified PowerConsumption 5.0 VDC (supplied from Node Interface Unit) Input Channels 8-channel analog input architecture Input Signals 4-20 mA DC, 1-5 V DC Communication BRAIN protocol support Isolation Channel-to-backplane isolation (architecture dependent) Conversion Multi-channel A/D conversion for process signals Channel-to-Channel Isolation and BRAIN Communication Layer The module implements channel-separated analog acquisition paths with isolation barriers between field terminals and internal DCS backplane circuitry. Each input channel processes 4-20 mA or voltage loop signals independently, reducing cross-channel coupling during high-density acquisition. BRAIN protocol overlay is superimposed on current loop wiring, enabling bidirectional digital communication without interrupting primary analog PV transmission. The architecture supports remote transmitter parameter access including span adjustment and device identification. Frequently Asked Questions Q: Can the AAM11B module be hot-swapped under load conditions?A: Hot-swap capability is dependent on the Node Interface Unit configuration. Field loop integrity must be evaluated before module insertion or removal to avoid signal interruption. Q: Does each channel provide electrical isolation?A: Isolation is implemented between field inputs and system backplane. Channel-to-channel isolation characteristics depend on internal multiplexing design and rack configuration. Q: What is the impact of BRAIN communication on analog signal transmission?A: BRAIN communication is frequency-modulated over the 4-20 mA loop and does not alter the primary analog process signal within normal operating tolerances. Field Installation Guidelines Ensure Node Interface Unit power is de-energized prior to module insertion Maintain shield continuity at designated grounding terminals only Avoid routing analog input cables parallel to high-voltage or inverter output wiring Verify correct polarity for 4-20 mA loop connections before energization Use twisted shielded pair cabling for all current input channels Confirm terminal tightening torque per rack specification to prevent micro-intermittency
$200.00 $100.00
-
Yokogawa AAM51 Yokogawa Current Voltage Output Module
Yokogawa AAM51 Current Voltage Output Module The Yokogawa AAM51, also cataloged as the AMM51 Current Voltage Output Module, operates as a dedicated hardware component for converting digital control commands into analog current signals within Yokogawa Distributed Control System (DCS) platforms. HardwareSpecifications Parameter Specification ModelBrand Yokogawa AAM51 Origin Japan PowerConsumption 24 VDC: ≤38 mA, 5 VDC: ≤10 mA OutputSignal 4-20 mA DC OutputVoltageLimit ≤25.5 VDC DataUpdatePeriod 2 ms (A2SAM505 alone), 22 ms step response WithstandingVoltage Field-to-system: 1500 VAC 1 min, 42 VDC Mounting I/O nest (A2BA3D) OutputResolution High-resolution DAC AllowableLoadResistance Up to 750 Ω GalvanicIsolation Field-to-system isolated ProcessControlCharacteristics Channel-to-Channel Isolation: Provides electrical isolation between output channels to prevent cross-interference and ground loops. 4-20 mA Loop Protocol Support: Compatible with standard current loop interfaces for direct actuator control. Cold Junction Compensation (CJc): Integrated to maintain output accuracy under fluctuating cabinet temperatures. FrequentlyAskedQuestions Q: Does the module support hot-swap replacement?A: No, the AAM51 must be powered down and isolated from the I/O backplane before removal or installation. Q: What is the maximum load resistance the module can drive?A: The module supports load resistances up to 750 Ω without output degradation. Q: Can the module detect open-circuit conditions on its output loops?A: Yes, it continuously monitors loop integrity and reports open-circuit or fault conditions to the DCS. FieldInstallationGuidelines Mount the module securely on the I/O nest (A2BA3D) using M4 screws. Ensure field wiring shields are properly grounded at one end to prevent ground loops. Maintain separation between high-current and signal cables to minimize interference. Verify supply voltage levels (24 VDC system, 5 VDC internal) before powering the module. Confirm output channel wiring polarity matches the actuator or device requirements.
$200.00 $100.00
-
Yokogawa Yokogawa AAM10 Current/Voltage Input Module | Analog Input Modules
Yokogawa AAM10 Current/Voltage Input Module Configured for acquisition of 4-20 mA DC and 1-5 V DC process signals in Yokogawa CENTUM CS/VP I/O architectures, the Yokogawa AAM10 (AAM10 Current/Voltage Input Module) provides direct physical and electrical signal conversion into DCS digital input data streams. Suffix Breakdown & Model Matrix The AAM10 is defined as a single fixed hardware model. No factory-published suffix segmentation or option code matrix is specified in the provided documentation. Hardware Specifications Parameter Specification ModelBrand Yokogawa AAM10 PowerConsumption 250 mA or less at 5.0 VDC Input Signal 4-20 mA DC, 1-5 V DC Input Resistance (Voltage) 1 MOhm (100 kOhm at power-down) Input Resistance (Current) 250 Ohm Allowable Input Range -10 VDC to 30 VDC, 40 mA DC max Transmitter Power Supply 25.0 to 25.5 VDC, 60 mA current limit Data Update Period 50 ms Isolation Input-to-system galvanic isolation Withstanding Voltage 1500 VAC for 1 minute Yokogawa DCS Channel-to-Channel Signal Conditioning Behavior The Yokogawa AAM10 implements DCS-grade analog front-end conditioning with software-selectable voltage/current acquisition paths. In current loop mode, the 250 Ohm shunt conversion path enables direct 4-20 mA DC signal translation into measurable voltage levels for A/D conversion. The integrated transmitter power supply (25.0 to 25.5 VDC) supports 2-wire loop-powered devices without external excitation hardware. Channel isolation design separates field input circuitry from internal CENTUM backplane logic, reducing ground loop propagation through the I/O nest structure. The module maintains stable measurement behavior under ambient temperature variation, with defined drift limits in both voltage and current acquisition channels. Frequently Asked Questions Q: Can the AAM10 module directly power 2-wire transmitters?A: Yes. It provides an integrated 25.0 to 25.5 VDC loop supply with 60 mA current limitation for 2-wire field instruments. Q: What is the analog conversion cycle of the module?A: The data update period is fixed at 50 ms, representing the module-level sampling refresh interval. Q: Is input isolation implemented per channel or per module?A: Isolation is implemented between field inputs and the internal DCS system domain at module level. Field Installation Guidelines Install the module into the designated I/O Module Nest or Node Interface Unit only. Use M4 screw terminals for field wiring termination with controlled torque per site standard practice. Maintain shield continuity and terminate cable shields at a single ground point to reduce loop-induced noise. Verify correct configuration of voltage vs current input mode before energizing field loops. Ensure loop-powered transmitters do not exceed the 60 mA supply limit per channel group.
$200.00 $100.00
-
Yokogawa Yokogawa AAM50 Analog Input Module-8 channels
Yokogawa AAM50 Analog Input Module Configured for analog signal acquisition in CENTUM VP and ProSafe-RS I/O subsystems, the Yokogawa AAM50 (AAM50 Analog Input Module) provides direct physical/electrical execution of multi-channel process signal conditioning within Yokogawa distributed control architectures. The module converts field analog inputs into digitized process values for backplane transmission to control and safety logic layers. Suffix Breakdown & Model Matrix The AAM50 is defined as a fixed hardware model. No validated suffix or option code segmentation is specified for this module. All configuration behavior is determined at system integration level (I/O node and software assignment). Hardware Specifications Parameter Specification Model Brand Yokogawa AAM50 Origin Japan Weight 1.5 kg Dimensions 144 mm x 144 mm x 150 mm Operating Temp 0 degC to 50 degC Storage Temp -20 degC to 70 degC Power Consumption 24 VDC system supply Input Channels 8 channels Input Signal Types 0-20 mA, 4-20 mA, 0-5 V, 1-5 V Isolation Channel-to-channel isolation Channel-to-Channel Isolation and DCS Signal Conditioning Architecture The Yokogawa AAM50 implements per-channel galvanic separation to suppress cross-channel electrical interference in dense I/O configurations. Each input channel is independently isolated to maintain signal integrity under mixed-voltage field wiring conditions. The module supports standard industrial current loops (4-20 mA and 0-20 mA) and voltage inputs, enabling direct interfacing with transmitters and analog field devices without external signal conditioning hardware. Integration with CENTUM VP and ProSafe-RS ensures deterministic acquisition timing via system backplane communication. Frequently Asked Questions Q: Can the AAM50 channels be mixed between current and voltage inputs simultaneously?A: Yes. Channel configuration supports mixed input types per channel, provided system-level parameter assignment is correctly configured. Q: Does channel-to-channel isolation affect scan time or conversion latency?A: Isolation is hardware-based and does not introduce configurable scan delays; conversion timing is managed by the I/O subsystem cycle. Q: Is hot-swap supported for the module during system operation?A: Hot-swap capability depends on I/O base unit design. Module removal under power must follow system-level maintenance procedures. Field Installation Guidelines Ensure all field wiring is segregated according to signal type to minimize electromagnetic coupling. Use shielded twisted-pair cables for all current loop connections, with shield termination at a single earth reference point. Maintain correct polarity for 4-20 mA loops to avoid signal inversion. Verify that channel assignments match system engineering configuration before energization. Avoid routing analog input wiring parallel to high-voltage or switching power conductors.
$200.00 $100.00
-
Yokogawa Yokogawa AAM21 Analog Input Module-8 channels
Yokogawa AAM21 Analog Input Module Configured for analog signal acquisition in CENTUM VP and ProSafe-RS systems, the Yokogawa AAM21 (AAM21 Analog Input Module) provides direct physical/electrical execution of 4-20 mA and voltage-based process signal conversion across CENTUM VP and ProSafe-RS platforms. Suffix Breakdown & Model Matrix No suffix or variant segmentation is specified in the provided source data for AAM21. The module is treated as a single hardware configuration entity without documented ordering-code subdivisions. Hardware Specifications Parameter Specification ModelBrand Yokogawa AAM21 Origin Japan Weight 1.5 kg Dimensions 144 mm x 144 mm x 150 mm OperatingTemp 0 degC to 50 degC PowerConsumption 24 VDC Input Channels 8 channels Input Types 0-20 mA, 4-20 mA, 0-5 V, 1-5 V Isolation Channel-to-channel isolation Channel-to-channel isolation and 4-20 mA loop integrity The AAM21 architecture implements galvanic separation between input channels to reduce inter-channel coupling under mixed-signal loading conditions. In 4-20 mA loop operation, the module maintains stable loop impedance behavior to avoid transmitter current distortion during multiplexed sampling. This isolation structure is aligned with DCS input conditioning requirements for CENTUM VP and ProSafe-RS analog acquisition nodes, where multi-channel density can introduce cross-channel electrical interaction if not segmented at the hardware level. The analog front-end conditioning ensures consistent signal translation into the system backplane without shared reference contamination between channels. Frequently Asked Questions Q: Does the AAM21 support hot-swap operation in CENTUM VP nodes?A: Hot-swap capability is system-dependent. In supported I/O nests, removal and insertion are managed at the node level with backplane isolation to prevent signal corruption. Q: What happens if an input loop becomes open-circuit on a 4-20 mA channel?A: The channel detects abnormal current discontinuity and reports diagnostic status to the system processor for alarm or fallback logic execution. Q: Is channel-to-channel isolation maintained under full channel loading?A: Yes. Isolation barriers are implemented per channel to prevent cross-coupling under simultaneous multi-channel excitation. Field Installation Guidelines Ensure 24 VDC supply integrity is verified before module insertion into the I/O node. Shielded signal cables should be grounded at a single-point earth reference to minimize ground loop formation across 4-20 mA loops. Maintain separation between analog input wiring and high-voltage switching conductors to reduce induced noise. Module seating must be fully engaged into the backplane connector to guarantee stable communication with the CENTUM VP or ProSafe-RS I/O subsystem.
$200.00 $100.00
-
Yokogawa Current/Voltage Analog Input Module | Yokogawa AAM11
Yokogawa AAM11 Current/Voltage Analog Input Module Configured for current and voltage signal acquisition in CENTUM CS, CENTUM CS 3000, and early CENTUM VP platforms, the Yokogawa AAM11-S1 (AAM11 Current/Voltage Analog Input Module) provides direct electrical interface processing for 0-10 VDC and 4-20 mA field instrumentation channels with integrated transmitter loop power distribution. Suffix Breakdown & Model Matrix Model Description AAM11 Standard current/voltage analog input module AAM11-S1 Revision variant with specified component/coating modification Hardware Specifications Parameter Specification Origin Japan Supported Systems CENTUM CS, CENTUM CS 3000, early CENTUM VP Input Signal Types 0-10 VDC, 0-20 mA DC, 4-20 mA DC Allowable Voltage Input -10 to +30 VDC Allowable Current Input Up to 40 mA Input Impedance Voltage: 1 Mohm; Current: 250 ohm Transmitter Power Output 25.0 to 25.5 VDC Maximum Loop Output Current 60 mA Data Update Interval 50 ms Accuracy Rating Voltage: +/- 4 mV; Current: +/- 16 uA Sampling Method Simultaneous analog acquisition Isolation Strength 1500 VAC for 1 minute Channel Isolation Galvanic isolation between field and system circuits Operating Temp Refer to system cabinet environmental specification Power Consumption 300 mA maximum at 5.0 VDC Ambient Temperature Effect Voltage: +/- 4 mV +/- 0.15% per 10 degC; Current: +/- 32 uA per 10 degC Mounting Method Installed on A2BA3D I/O adaptor nest Wiring Method M4 screw terminals or ELCO connector Dimensions Approx. 17.0 x 1.0 x 6.0 cm Weight Approx. 0.1 kg Channel-to-Channel Isolation Characteristics The AAM11 module incorporates galvanic isolation between field-side analog circuitry and internal system-side processing circuits. The isolation structure is intended to reduce common-mode interference generated by ground potential differences and inductive switching devices located near field wiring routes. For voltage acquisition channels, the module maintains high input impedance of 1 Mohm during active operation. Current input channels utilize internal 250 ohm conversion resistance for 4-20 mA and 0-20 mA process loop acquisition. Integrated transmitter excitation output of 25.0 to 25.5 VDC permits direct connection of 2-wire transmitters without external loop power hardware. The analog acquisition cycle operates at 50 ms update intervals rather than multiplexed scan sequencing. This permits simultaneous acquisition behavior across configured input channels within the associated FCS architecture. Frequently Asked Questions Q: Does the AAM11 support direct 2-wire transmitter connection without an external power supply?A: Yes. The module provides integrated transmitter excitation output rated at 25.0 to 25.5 VDC with maximum output current of 60 mA for connected field loops. Q: Is hot insertion supported while the CENTUM node remains energized?A: Hot-swap handling depends on the installed FCS generation and cabinet implementation. Field-side signal isolation does not eliminate the requirement to follow Yokogawa maintenance procedures before module replacement. Q: What is the primary difference between multiplexed analog cards and the AAM11 acquisition method?A: The AAM11 operates using fast simultaneous acquisition with 50 ms update intervals rather than sequential multiplexed channel scanning associated with slower analog input architectures. Field Installation Guidelines Verify cabinet grounding continuity before installing the module onto the A2BA3D adaptor assembly. Separate low-level analog wiring from motor drive output cables and high-current AC conductors. Connect cable shield drain wires at the designated control cabinet grounding point only to minimize circulating ground current. Confirm field loop polarity before applying transmitter excitation voltage to current input channels. Use specified M4 fastening torque values according to Yokogawa cabinet assembly documentation. Inspect ELCO connector seating alignment before energizing the associated FCS node. Do not exceed 40 mA input current limit on analog current channels.
$200.00 $100.00
-
Yokogawa Voltage Input Multiplexer Module AMM12C Yokogawa
Yokogawa AMM12C Voltage Input Multiplexer Module The Yokogawa AMM12C, also cataloged as the AMM12C Voltage Input Multiplexer Module, operates as a dedicated hardware component for sequential scanning and sampling of multiple DC voltage signals within CENTUM CS, CENTUM CS 1000/3000, and early CENTUM VP RIO networks. HardwareSpecifications Parameter Specification ModelBrand AMM12C Origin Yokogawa, Japan Weight 0.3 kg Dimensions Standard I/O Nest / Backplane form factor OperatingTemp -10 degC to +55 degC PowerConsumption Dependent on backplane slot rating Number of Channels 16 Input Signal Types 0-5 V, 1-5 V, 0-10 V DC Accuracy ±0.1% of full scale Data Scan / Refresh Cycle 1 s Isolation Channel-to-channel and channel-to-system Redundancy Dual-redundant support Mounting Backplane / I/O Nest FrequentlyAskedQuestions Q: Does the AMM12C support hot-swap replacement in a running system?A: No, the module requires system power-down before removal or installation to maintain signal integrity and prevent backplane damage. Q: What is the expected channel scan rate?A: Each module sequentially scans all 16 channels with a typical refresh cycle of 1 second per full scan. Q: Can the module firmware be upgraded?A: The AMM12C is a legacy RIO component with no firmware upgrade capability; configuration changes are performed through the host DCS engineering software. FieldInstallationGuidelines Ensure all input voltage signals are within the rated range (0-5 V, 1-5 V, 0-10 V DC). Properly seat the module in the I/O nest or backplane slot to maintain signal continuity and redundancy failover. Connect shielding and ground wires according to Yokogawa RIO wiring standards to minimize electrical noise. Maintain at least 10 mm spacing between adjacent modules when possible to aid heat dissipation. Avoid routing high-current or switching signals alongside input wiring to reduce induced noise. Observe ambient temperature limits and humidity constraints to ensure stable module operation.
$200.00 $100.00
-
Yokogawa AMM52T Yokogawa Current Output Multiplexer Module
Yokogawa AMM52T Current Output Multiplexer Module Configured for multiplexed 4-20 mA signal transmission in Yokogawa CENTUM RIO networks, the Yokogawa AMM52T-S2 (AMM52T Current Output Multiplexer Module) provides direct electrical execution for sequential analog current output control to field actuators and valve positioners. SuffixBreakdown&ModelMatrix Model Description AMM52T Standard Current Output Multiplexer Module AMM52T-S2 Conformal-coated or corrosion-resistant hardware variant HardwareSpecifications Parameter Specification ModelBrand Yokogawa AMM52T / AMM52T-S2 Origin Japan Weight Approx. 0.6 kg Dimensions Approx. 282 x 210 x 20 mm OperatingTemp Standard industrial cabinet environment PowerConsumption <= 4 A @ 5 VDC backplane supply ModuleType Current Output Multiplexer Module OutputChannels 16 multiplexed output channels OutputSignalRange DC 4-20 mA MaximumOutputCurrent 20 mA per channel OutputAccuracy +/-48 uA (approx. +/-0.3% FS) TemperatureInfluence +/-32 uA per 10 degC DataRefreshCycle 1 second SignalIsolation No isolation between channels or field/system side InstallationMethod Dedicated RIO nest mounting FieldConnection M4 screw terminal connection 4-20mALoopTransmissionCharacteristics The AMM52T operates as a time-division multiplexed analog output module for 4-20 mA loop transmission in CENTUM-XL, CENTUM CS 1000, and CENTUM CS 3000 architectures. The module does not implement channel-to-channel isolation or galvanic separation between field wiring and the system backplane. External isolators or signal conditioners may be required where field grounding potential differs from cabinet ground reference. FrequentlyAskedQuestions Q: Does the AMM52T support online hot-swap replacement?A: No. The module should be removed only after backplane power is isolated to prevent multiplex bus interruption and output instability. Q: Can the module directly drive field valve positioners?A: Yes. The module outputs standard DC 4-20 mA control signals intended for compatible two-wire field actuators and positioners within allowable loop load conditions. Q: Is electrical isolation integrated into the module hardware?A: No. The AMM52T is a non-isolated design. External isolation barriers are recommended for installations with multiple grounding references or high electromagnetic noise exposure. FieldInstallationGuidelines Route analog output wiring separately from motor feeders, inverter output cables, and relay switching circuits. Connect cable shields to a single-point cabinet ground to reduce common-mode interference. Verify loop impedance before energizing field output channels to prevent current saturation conditions. Tighten M4 terminal screws according to cabinet wiring standards to avoid intermittent loop continuity. Do not share analog signal commons with high-current protective earth conductors.
$200.00 $100.00
-
Yokogawa AMM52 Yokogawa Voltage Input Multiplexer | Analog Input Modules
Yokogawa AMM52 Voltage Input Multiplexer Module The Yokogawa AMM52 module, also cataloged as the AMM52 Voltage Input Multiplexer Module, operates as a dedicated hardware component for sequential scanning and analog voltage conversion within Yokogawa CENTUM distributed control and Remote I/O systems. HardwareSpecifications Parameter Specification ModelBrand Yokogawa AMM52 / AMM52-S2 Origin Japan Weight 0.40 kg (0.88 lbs) Dimensions Standard RIO module form factor OperatingTemp 0 to 55 degC (typical industrial range) PowerConsumption 4 A max @ 5 VDC (backplane) ModuleType Voltage Input Multiplexer NumberOfChannels 4 input channels per module InputSignalRange DC 1 to 5 V AllowableInputVoltage ≤ ±30 VDC InputImpedance ≥ 1 MΩ (powered ON) / ≥ 500 kΩ (powered OFF) SignalIsolation Non-isolated (channel-to-channel and system-to-field) Accuracy/Resolution Dependent on system A/D converter (~±0.1% full scale) DataRefreshCycle 1 second OutputTypes Analog signals (0-10 V, ±10 V, or 4-20 mA) FlowMeasurementAccuracy ±0.3% of reading value MaxInputsOutputs 4 inputs/outputs for current, pulse, and status signals ProcessControlIntegration The AMM52 supports 4-20 mA HART loop protocol integration for analog signal interfacing. While the module is non-isolated, careful attention must be paid to channel-to-channel and system-to-field grounding to prevent common-mode noise. Cold junction compensation is not implemented internally; external signal conditioning is recommended if precise low-level DC measurement is required. FrequentlyAskedQuestions Q: Does the AMM52 support hot-swapping?A: No. The module must be powered down before removal or replacement to prevent backplane bus damage. Q: What is the expected switching delay between input channels?A: The scan period is 1 second per standard RIO multiplexer sequencing; channel-to-channel switching occurs within this cycle. Q: Can the module operate with varying backplane voltages?A: The module is rated for 5 VDC backplane supply. Deviations may cause malfunction or inaccurate readings. FieldInstallationGuidelines Ensure all analog input signals share a common grounding point to minimize ground loop interference. Install external signal isolators if field devices are referenced to different grounds. Route signal wiring separately from high-current or switching power cables to reduce electromagnetic interference. Secure the module firmly in the RIO rack; excessive vibration may affect analog measurement stability. Follow standard ESD precautions during installation or removal to protect input circuitry.
$200.00 $100.00
-
Yokogawa AMM42T | Yokogawa | 2-wire Transmitter Input Multiplexer Module
Yokogawa AMM42T 2-wire Transmitter Input Multiplexer Module Configured for multi-channel 4-20 mA transmitter signal acquisition in CENTUM and RIO control networks, the Yokogawa AMM42T (AMM42T 2-wire Transmitter Input Multiplexer Module) provides direct electrical multiplexing and loop power distribution for field-mounted analog transmitters. Suffix Breakdown & Model Matrix Model Description AMM42T Standard 2-wire transmitter input multiplexer module AMM42T-S2 Variant with specified coating or environmental suffix configuration Hardware Specifications Parameter Specification Model AMM42T / AMM42T-S2 Brand Yokogawa Product Type 2-wire Transmitter Input Multiplexer Module Supported Systems CENTUM-XL, CENTUM CS, RIO Remote I/O Systems Input Signal 4-20 mA DC Allowable Input Current 40 mA maximum Transmitter Power Supply 23.5-24.5 VDC Power Supply Output Limit 60 mA maximum Input Resistance 250 Ohm standard, 70 Ohm with barrier connection Signal Isolation No isolation between system and field, and no channel-to-channel isolation Data Update Period 1 second Power Consumption 4 A maximum at 5.0 VDC Weight Approximately 0.43 kg Origin Japan / Indonesia depending on production batch 4-20 mA Loop Integration Characteristics The module operates with direct 4-20 mA analog loop handling and internal transmitter excitation suitable for two-wire field devices. Because the AMM42T does not implement galvanic isolation between channels or between field and system sides, external intrinsic safety barriers or isolators are commonly inserted when installed in grounded process environments or hazardous-area loops. When external barriers are connected, the module input resistance can be configured from 250 Ohm to 70 Ohm to maintain loop current compliance and signal stability within the analog acquisition path. Frequently Asked Questions Q: Does the AMM42T provide channel-to-channel isolation?A: No. The module uses a non-isolated multiplexed analog input structure. Field grounding strategy and shield termination should therefore be reviewed during installation. Q: Can the module directly power two-wire transmitters?A: Yes. The internal transmitter supply provides 23.5-24.5 VDC with a maximum output current limit of 60 mA. Q: Is the AMM42T suitable for use with intrinsic safety barriers?A: Yes. When connected with external safety barriers or isolators, the input resistance may be adjusted to 70 Ohm as specified for barrier-integrated loop configurations. Field Installation Guidelines Route analog input cables separately from motor feeders, inverter output wiring, and relay switching circuits. Connect cable shields at a single grounding reference point to reduce common-mode loop interference. Verify total loop resistance before commissioning when external barriers or isolators are inserted into the 4-20 mA circuit. Confirm backplane power loading capacity before inserting multiple AMM42T modules into the same node assembly. Do not connect field devices with independent grounded commons across multiple channels without evaluating ground potential differences.
$200.00 $100.00
-
Yokogawa Yokogawa AMM22J Voltage Input Multiplexer Module
Yokogawa AMM22J Voltage Input Multiplexer Module Configured for analog voltage signal multiplexing in CENTUM VP and CS 3000 architectures, the Yokogawa AMM22J (AMM22 Voltage Input Multiplexer Module) provides direct physical and electrical execution for multi-channel voltage acquisition, signal scanning, and A/D conversion across Yokogawa DCS backplane environments. Suffix Breakdown & Model Matrix Model Description AMM22J Voltage input multiplexer module for standard DC voltage signal acquisition AMM22T Thermocouple input variant AMM22M Millivolt input variant Hardware Specifications Parameter Specification Model AMM22J Brand Yokogawa Product Type Voltage Input Multiplexer Module Number of Channels 16 channels Supported Signal Types Standard DC voltage inputs Input Signal Examples 1-5 V, 0-10 V A/D Conversion Resolution 12-bit Measurement Accuracy +/-0.1 % FS Scan Cycle Time Approx. 100 ms per channel Isolation Type Channel-to-channel and channel-to-ground galvanic isolation Isolation Rating 500 VAC/VDC Nominal Operating Voltage 24 VDC Power Consumption 2.5 W maximum System Compatibility CENTUM CS, CENTUM CS 3000, CENTUM VP Operating Temp 0 degC to +55 degC Storage Temp -20 degC to +70 degC Relative Humidity 10 % to 90 % RH non-condensing Vibration Resistance 2 G at 10-150 Hz Shock Resistance 10 G Dimensions 12.7 cm x 2.5 cm x 20.3 cm Weight Approx. 0.2 kg Origin Japan Channel Isolation and DCS Signal Conditioning The AMM22J implements channel-to-channel isolation to reduce common-mode interference propagation between analog voltage loops connected to the same multiplexing assembly. Internal multiplexing circuitry performs sequential channel scanning before analog-to-digital conversion within the CENTUM DCS acquisition path. The module is intended for direct interface with standard process instrumentation producing low-level DC voltage outputs. Isolation barriers assist in minimizing ground loop current circulation between field devices and cabinet grounding structures. Signal routing is internally consolidated through the Yokogawa I/O subsystem backplane without requiring discrete point-to-point acquisition hardware for each channel. Frequently Asked Questions Q: Does the AMM22J support online module replacement within CENTUM systems?A: Replacement capability depends on the specific CENTUM node configuration and controller redundancy arrangement. Field replacement procedures should follow the active controller maintenance sequence defined by Yokogawa system documentation. Q: What input signal category is supported by the AMM22J?A: The module is designed for standard DC voltage input acquisition, including typical industrial voltage ranges such as 1-5 V and 0-10 V process signals. Q: Is external signal isolation required for each field channel?A: The module incorporates internal galvanic isolation between channels and ground references. Additional external isolation may still be applied when field grounding systems contain high transient potential differences. Field Installation Guidelines Verify cabinet grounding continuity before energizing field voltage loops connected to the module. Route analog voltage wiring separately from AC power conductors, relay coils, and VFD output cables. Use shielded twisted-pair instrumentation cable for low-level voltage signal transmission. Terminate cable shields at a single designated cabinet grounding point to reduce induced noise currents. Confirm 24 VDC supply polarity prior to insertion into the DCS I/O rack. Avoid exceeding specified environmental temperature and humidity limits during cabinet operation. Maintain sufficient spacing between analog signal wiring and high-current terminal blocks within the enclosure.
$200.00 $100.00
-
Yokogawa Yokogawa AMM32T RTD Input Multiplexer Module
Yokogawa AMM32T RTD Input Multiplexer Module Configured for RTD signal multiplexing in Yokogawa CENTUM CS and CENTUM VP systems, the Yokogawa AMM32T (AMM32T RTD Input Multiplexer Module) provides direct physical/electrical execution for 32-channel temperature acquisition and signal conditioning. The module accepts 3-wire RTD inputs, performs linearization and multiplex conversion, and transfers conditioned process data through the Yokogawa DCS I/O infrastructure. Suffix Breakdown & Model Matrix Model Variant Description AMM32T Standard RTD input multiplexer module AMM32TJ Terminal specification variation for installation configuration Hardware Specifications Parameter Specification Model AMM32T Brand Yokogawa Electric Corporation Product Type RTD Input Multiplexer Module Number of Channels 32 isolated RTD input channels Supported Sensors Pt100, Pt1000, JPt100, 3-wire RTD Measurement Range -200 degC to +600 degC Measurement Accuracy +/- 0.15 degC Measuring Current Approx. 1 mA Maximum Input Resistance >= 2 Mohm per channel Allowable Lead Resistance <= 150 ohm per wire Data Update Cycle 1 second for 32 channels Fault Detection Burnout detection selectable Up/Down/Off System Compatibility CENTUM CS, CENTUM CS 3000, CENTUM VP Power Consumption <= 500 mA at 5 VDC Mounting Method Yokogawa standard I/O nest installation Dimensions 152 mm x 76 mm x 254 mm Weight 0.8 kg Operating Temp Not specified in supplied documentation Origin Japan Channel-to-Channel Isolation Characteristics The AMM32T module implements isolated RTD input processing across 32 channels to reduce common-mode interference between adjacent temperature loops. Multiplexed acquisition circuitry performs signal conditioning prior to transmission into the CENTUM backplane structure. The module supports burnout and open-circuit diagnostics for field RTD disconnection detection without requiring external line supervision hardware. RTD measurement execution is based on low-current excitation approximately equal to 1 mA. Balanced lead resistance handling up to 150 ohm per conductor is supported for 3-wire RTD compensation stability. Frequently Asked Questions Q: Does the AMM32T support hot-swapping during system operation?A: The supplied documentation does not explicitly define online insertion or removal capability. Module replacement should follow CENTUM system maintenance procedures with slot power state verification before extraction. Q: What RTD wiring configuration is supported by the module?A: The AMM32T supports 3-wire RTD sensor configurations including Pt100, Pt1000, and JPt100 input types. Q: How is RTD sensor failure detected?A: The module provides selectable burnout and disconnection detection modes. Detection behavior can be configured for upscale, downscale, or disabled response handling. Field Installation Guidelines Use shielded twisted-pair RTD extension cable for all field temperature circuits. Terminate cable shields at a single cabinet grounding point to reduce circulating ground current. Maintain separation between RTD wiring and high-voltage motor or inverter cable trays. Verify conductor resistance balance before commissioning 3-wire RTD loops. Confirm slot compatibility with CENTUM CS or CENTUM VP I/O nests prior to installation. Avoid routing RTD input wiring adjacent to relay switching assemblies or high-current contactors. Inspect terminal torque conditions periodically to prevent intermittent sensor disconnection alarms.
$200.00 $100.00
-
Yokogawa Yokogawa AMM12T Voltage Input Multiplexer Module
Yokogawa AMM12T Voltage Input Multiplexer Module Configured for voltage signal acquisition and channel scanning in CENTUM CS and CENTUM VP control systems, the Yokogawa AMM12T (AMM12T Voltage Input Multiplexer Module) provides direct physical/electrical execution of 16-channel analog voltage multiplexing with backplane-controlled switching and -10 VDC to +10 VDC signal routing. Suffix Breakdown & Model Matrix No formal suffix segmentation or option code structure is defined for the AMM12T base model in the provided technical dataset. Configuration is fixed at module level without documented variant suffix expansion. Hardware Specifications Parameter Specification ModelBrand Yokogawa AMM12T Origin Japan InputChannels 16 channels InputSignalType Voltage input multiplexing InputCurrent 20 mA max OutputVoltageRange -10 VDC to +10 VDC OutputCurrent 20 mA max SwitchingTime 10 ms max SystemCompatibility CENTUM CS / CENTUM VP Channel-to-Channel Multiplexing Architecture (DCS Signal Handling) The module operates within Yokogawa DCS environments using sequential channel switching logic controlled via system backplane timing. In typical CENTUM architectures, voltage input channels are scanned through time-sliced multiplexing, ensuring deterministic acquisition intervals with switching latency bounded by 10 ms maximum. Channel separation is implemented at the switching matrix level, reducing inter-channel electrical interaction during sampling windows. The input stage supports direct voltage acquisition with constrained current loading up to 20 mA, enabling interface with standard industrial analog signal sources. Integration within CENTUM CS/VP systems aligns the module with backplane communication cycles, where scan sequencing is synchronized to controller task execution intervals rather than asynchronous polling. Frequently Asked Questions Q: Can the AMM12T be hot-swapped during system operation?A: Hot-swap capability depends on the system rack architecture. Electrical isolation is handled at backplane level; removal during active scan cycles may interrupt channel sampling. Q: What is the effective channel scan delay across all 16 inputs?A: The switching time is specified up to 10 ms per channel. Total scan cycle time scales with system configuration and controller scan scheduling. Q: Does the module support electrical isolation between channels?A: Channel separation is implemented through internal multiplex switching; isolation characteristics are defined at system rack design level rather than per input channel. Field Installation Guidelines Install module into compatible Yokogawa CENTUM CS/VP I/O rack slot with secure backplane engagement. Ensure all analog voltage inputs remain within -10 VDC to +10 VDC range prior to termination. Use shielded twisted pair wiring for analog signal lines and terminate shields at designated system ground point. Maintain separation between high-noise power conductors and low-level analog input wiring. Verify backplane connector seating integrity to ensure stable multiplex timing and scan synchronization.
$200.00 $100.00
-
Yokogawa AMM22C | Yokogawa 16-Channel Isolated Multiplexer Unit
Yokogawa AMM22C Analog Input Multiplexer Unit The Yokogawa AMM22C (AMM22C) Analog Input Multiplexer Unit operates as a dedicated hardware component for low-level millivolt and 4-20 mA signal acquisition within CENTUM VP / CS 3000 Field I/O architectures. Configured for channelized analog signal scanning in Yokogawa DCS Field Control Station environments, the Yokogawa AMM22C (AMM22C Analog Input Multiplexer Unit) provides direct electrical execution of 16-channel multiplexed input sampling with per-channel galvanic isolation. Suffix Breakdown & Model Matrix AMM22C is a fixed model designation. No structured suffix segmentation or option code decomposition is defined for this part number. Functional configuration is determined at system-level engineering within the Field I/O node and CENTUM VP / CS 3000 integration parameters. Hardware Specifications Parameter Specification ModelBrand AMM22C / Yokogawa Origin Yokogawa Electric Corporation Weight 3 kg (shipping condition, including packaging) Dimensions 32.8 x 107.5 x 130 mm OperatingTemp 0 degC to 60 degC PowerConsumption Not explicitly specified (system/backplane dependent) Channels 16 analog input channels Signal Types Millivolt (mV), 4-20 mA DC Input Resistance 250 ohm (current loop termination) Resolution 12 to 16 bit (system configured) Accuracy +/-0.1% of full scale Isolation Channel-to-system galvanic isolation Architecture Multiplexed Field I/O scanning Channel-to-Channel Isolation and Signal Integrity Behavior (Yokogawa DCS Architecture) Within Yokogawa Electric Corporation Field I/O design, the AMM22C implements per-channel galvanic isolation between input termination stages and system backplane referencing. This isolation topology reduces ground potential coupling across mixed analog loops, particularly in 4-20 mA current measurement circuits where loop grounding differentials can introduce offset drift. The multiplexed acquisition structure sequentially samples 16 inputs through an internal switching matrix. This architecture enforces deterministic scan behavior aligned with CENTUM VP / CS 3000 field control station timing cycles. Signal conditioning is performed prior to digitization to stabilize low-level millivolt inputs against line impedance variation and EMI coupling. Frequently Asked Questions Q1: Does AMM22C support hot-swap replacement under live backplane power?A1: Hot-swap capability is system-dependent and governed by the Field Control Station rack design. Electrical design of the module assumes backplane power sequencing compliance during insertion and removal. Q2: How is channel isolation implemented across 16 inputs?A2: Each input channel is electrically isolated from system ground reference via galvanic isolation stages. This prevents inter-channel ground loop propagation during mixed signal acquisition. Q3: Can AMM22C directly interface with HART overlay signals on 4-20 mA loops?A3: The module primarily performs analog multiplexed acquisition. HART signal handling depends on upstream system integration and is not inherently decoded at the multiplexer stage. Field Installation Guidelines The AMM22C shall be installed in a designated Yokogawa Field I/O node slot within CENTUM VP / CS 3000 compatible racks. Maintain segregation between low-level analog signal wiring and power conductors to reduce capacitive coupling noise. Shield termination for 4-20 mA loops should be implemented at a single grounding point within the control cabinet to avoid ground loop formation. Signal cables must maintain minimum bend radius defined by instrumentation cable specification to prevent impedance discontinuities. Backplane connector alignment must be verified prior to full insertion to prevent pin misalignment damage. Ensure all field wiring is torque-terminated according to terminal block mechanical specification.
$200.00 $100.00
You have seen 216 out of 577 products