Distributed Control Systems (DCS) manage complex industrial processes. We stock controllers, I/O modules, and spare parts for ABB, Honeywell, Emerson, and more. Our global supply ensures fast support for both active and legacy systems.
DCS Control Systems
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General Electric GE IC200PWR002 VersaMax Expanded 3.3V Power Supply Module
Product Description The IC200PWR002 is a VersaMax-series DC power module designed by GE Fanuc / Emerson to support extended low-voltage backplane requirements in modular PLC architectures. It converts a 24 VDC field supply into regulated logic voltages, with enhanced 3.3 VDC capacity for modern controller and communication modules requiring higher digital processing power. This unit can function either as a primary rack power source or as an auxiliary supply when integrated into a booster carrier configuration. Operational Characteristics Provides regulated backplane power for CPU, NIU, and distributed I/O modules Enhanced 3.3 VDC rail capacity for higher-load logic subsystems Supports dual installation modes: direct mount or booster carrier integration Designed for scalable VersaMax rack expansion Maintains continuous power stability across segmented backplane architectures Electrical Performance Input Voltage Range: 18–30 VDC Nominal Input: 24 VDC industrial supply Input Power Consumption: approx. 11 W Inrush Current: 20 A at 24 VDC 25 A at 30 VDC Holdup Time: ~10 ms Output Characteristics 5 VDC regulated backplane rail 3.3 VDC extended logic rail Total Output Current: up to 1.5 A 3.3 VDC Rail Capacity: up to 1.0 A maximum 5 VDC Rail: remaining current after 3.3 VDC load allocation Isolation: non-isolated output architecture Protection & Electrical Safeguards Short-circuit protection on output rails Overload current limiting and shutdown behavior Reverse polarity input protection Designed for continuous industrial duty operation Mechanical Construction Weight: 0.26 lb Mounting Method: DIN rail or direct attachment to VersaMax CPU/NIU/carrier Terminal Type: screw-clamp field wiring interface Housing Design: ventilated industrial enclosure with labeling for diagnostics Compact plug-in structure optimized for rack density Environmental & Safety Ratings Maximum Ambient Temperature: 60°C Hazard Classification: Class I, Division 2, Groups A–D (when properly installed) Temperature Code: T4A Installation Requirement: power must be isolated before servicing Suitable for enclosed control cabinet environments Engineering Notes Expanded 3.3 V rail supports newer-generation VersaMax modules with higher digital logic demand Load balancing between 5 V and 3.3 V outputs is required to maintain rated capacity In booster carrier configurations, the unit functions as a distributed power node within segmented racks Fully compatible with VersaMax CPU and NIU backplane systems Application Scenarios High-density PLC rack power distribution Modernized VersaMax systems with increased 3.3 V logic demand Expansion of existing I/O architectures Retrofit of legacy systems requiring upgraded logic power support FAQ What is the difference between IC200PWR001 and IC200PWR002?The IC200PWR002 provides expanded 3.3 VDC output capacity, supporting newer modules with higher logic power requirements. Can this unit be used as a standalone power supply?Yes, it can operate as the primary power source for a VersaMax station. Does it require a booster carrier?No, but it can be installed on a booster carrier when used as a supplemental supply in extended systems.
$200.00 $100.00
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General Electric GE IC200PWR001 VersaMax Power Supply Module
Overview The IC200PWR001 is a VersaMax-series DC power module developed by GE Fanuc / Emerson for supplying internal backplane voltages in modular PLC systems. It converts a 24 VDC industrial input into regulated logic rails required by CPUs, network interface units, and distributed I/O assemblies. The unit may operate as a primary station power source or as an auxiliary supply when integrated through a booster carrier in expanded rack architectures. Functional Characteristics Provides regulated backplane power for VersaMax controllers and I/O modules Supports dual-output architecture for logic rails (5 VDC and 3.3 VDC) Can be deployed as main rack power or secondary expansion supply Designed for direct mounting on CPU, NIU, or compatible carrier base Includes internal protection logic for abnormal electrical conditions Electrical Performance Input Voltage Range: 18–30 VDC (24 VDC nominal system supply) Input Power Consumption: approximately 11 W Inrush Current: 20 A at 24 VDC 25 A at 30 VDC Holdup Time: ~10 ms Output Stage 5 VDC regulated backplane rail 3.3 VDC logic rail Total Output Current: up to 1.5 A combined 3.3 VDC Output Limit: 0.25 A maximum 5 VDC Output: remaining current capacity after 3.3 VDC load allocation Protection & Reliability Functions Short-circuit protection on both output rails Overload shutdown with automatic recovery behavior Reverse polarity protection on input terminals Designed for continuous industrial duty cycles Mechanical Construction Housing Width: ~49 mm Height: ~133.4 mm Depth: ~39 mm (excluding carrier interface) Mounting: snap-fit installation on VersaMax CPU, NIU, or power carrier Weight: 0.24 lb Design: compact modular plug-in architecture for rack integration Environmental & Safety Ratings Operating Temperature: up to 60°C ambient (T4A classification in hazardous setups) Hazardous Location Approval: Class I, Division 2, Groups A–D (when installed per certification rules) Requires power isolation during installation or replacement Suitable for cabinet-mounted industrial environments Engineering Notes Output capacity must be balanced across 5 V and 3.3 V rails to avoid derating In multi-module racks, load distribution planning is required for stable backplane performance When used with booster carriers, acts as a distributed power node for segmented systems Compatible with standard VersaMax CPU and NIU backplane architecture Application Areas PLC backplane power generation in modular control systems Distributed I/O rack powering in machine automation Retrofit upgrades of legacy VersaMax installations Systems requiring compact dual-voltage logic power supply FAQ What is the main role of the IC200PWR001?It generates regulated 5 VDC and 3.3 VDC power for VersaMax backplane operation. Can it be used as the only power supply in a rack?Yes, it can serve as the primary supply in a single VersaMax station. Does it support hazardous environments?Yes, it is rated for Class I Division 2 when installed according to Emerson guidelines.
$200.00 $100.00
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General Electric GE IC200PWB001D VersaMax Power Booster Carrier Module
Overview The IC200PWB001D from GE Fanuc VersaMax series is a dedicated power expansion carrier designed to support additional power supply integration in modular PLC I/O systems. It is installed within a VersaMax rack to segment and extend backplane power distribution when system load exceeds the primary supply capacity. This module does not directly control I/O but functions as an infrastructure component to ensure stable voltage delivery across expanded configurations. System Function Provides a mounting and connection point for an auxiliary VersaMax power supply Segments backplane power so downstream modules receive isolated and stable supply Transfers power to all I/O modules positioned to the right until another power source is encountered Supports scalable rack design in distributed control systems Ensures controlled power injection in high-density I/O assemblies Electrical Specifications Input Voltage: 24 VDC external supply Backplane Output: 5 VDC logic power distribution (system dependent) Maximum Current Capacity: up to 10 A (revision D configuration) Power Dissipation: approx. 2.5 W Isolation Strength: 1500 VAC galvanic isolation between input and backplane Backplane Compatibility: GE Fanuc VersaMax PLC architecture Mechanical Details Mounting: 35 mm DIN rail installation Installation Orientation: horizontal rack mounting inside control cabinet Terminal Type: spring-clamp connectors, approx. 10-point interface Terminal Torque: 1.1–1.4 Nm Weight: 0.31 lb Housing: industrial-grade corrosion-resistant enclosure Protection Rating: IP20, cabinet use only Environmental Conditions Operating Temperature: −20°C to +70°C Storage Temperature: −40°C to +85°C Humidity: 5–95% non-condensing Designed for vibration-resistant industrial control environments Diagnostics & Indicators PWR LED: indicates presence and health of booster power input OK LED: confirms system-level communication and proper backplane operation Engineering Considerations Must be installed on grounded DIN rail to maintain EMC compliance Power segmentation planning is required to avoid overload of a single backplane section Typically used in extended VersaMax racks with multiple I/O clusters Works in combination with GE Fanuc VersaMax CPUs and NIU modules Application Scenarios Extended PLC I/O rack expansion Distributed process control cabinets High channel-count automation systems Retrofit upgrades requiring additional backplane power capacity FAQ What role does this module play in a PLC system?It acts as a power distribution and segmentation carrier rather than a control or I/O module. Does it increase system I/O points?No, it only enables expansion by supplying additional power capacity. Is it required in all VersaMax systems?No, it is only used when system power demand exceeds a single supply capacity.
$200.00 $100.00
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General Electric GE IC200MDL750 VersaMax I/O Output Module
Overview The IC200MDL750 is a high-density discrete output module designed for the GE Fanuc / Emerson VersaMax I/O system. It provides 32-channel sourcing (positive logic) DC outputs for distributed control applications requiring reliable switching of field devices such as solenoids, relays, indicators, and similar DC loads. The module installs on VersaMax I/O carrier bases and communicates through the backplane while using an external field power supply for load energization. Functional Architecture The output structure is divided into two independent banks of 16 channels, allowing structured field wiring and load separation. Key functional characteristics: 32 sourcing DC output channels Positive logic high-side switching configuration Two isolated 16-point output groups Individual LED status indicators per channel OK and Field Power diagnostic LEDs Backplane-powered control logic with external field supply Electrical Performance Specifications Output Voltage Range: 10.2 to 30 VDC (12/24 VDC nominal systems) Output Current: 0.5 A per channel (resistive load) Inrush Current Capability: up to 2 A for 100 ms per point Backplane Current Consumption: approximately 90 mA at 5 VDC Switching Speed: Turn ON: 0.2 ms Turn OFF: 1.0 ms Output Type: DC sourcing (positive logic only) These parameters support fast-response discrete control in compact I/O architectures. Isolation and Protection Field-to-backplane isolation: 250 VAC continuous Dielectric withstand: 1500 VAC for 1 minute Group isolation between two 16-channel banks No point-to-point isolation Inductive loads should be externally suppressed using flyback diodes, RC snubbers, or equivalent protection methods to ensure long-term reliability. Wiring and System Integration Two field power groups with 16 outputs each Shared DC+ and DC− terminals per group External 12/24 VDC field power required Designed for VersaMax DIN-rail carrier systems (IC200CHS series) Environmental and Mechanical Data Operating Temperature: 0 to 60°C Mounting: DIN-rail via VersaMax I/O carrier base Hazardous Area Rating: Class I, Division 2 (when installed per control drawings) Weight: 0.29 lb Diagnostics 32 individual channel LEDs for output status OK LED indicating module health FLD PWR LED indicating field power availability These diagnostics support fast commissioning and fault identification in the field. Application Scenarios Solenoid valve control in process systems Relay and contactor interposing Industrial panel indicator control Machine-level discrete output expansion Distributed control system I/O architectures FAQ What type of loads can this module drive?It supports DC resistive and inductive loads such as solenoids, relays, and indicator lamps. Does it require external power?Yes, a 12/24 VDC external field power supply is required for operation. Is it suitable for hazardous environments?It is rated for Class I, Division 2 installations when applied according to Emerson installation guidelines.
$200.00 $100.00
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General Electric GE IC200MDL741 16-Point 120VAC Output Module VersaMax
Product Description The IC200MDL741 by GE Fanuc (Emerson) is a 16-channel 120 VAC discrete output module engineered for reliable AC load control in VersaMax PLC systems. Utilizing triac-based solid-state outputs, this module delivers long operational life, fast switching, and enhanced reliability compared to mechanical relay solutions. Each channel is equipped with a dedicated LED for immediate status monitoring, while the OK and Field Power (FLD PWR) LEDs provide system health diagnostics. Group-to-backplane isolation ensures robust noise immunity and protects the PLC logic from field-side disturbances. The module is compatible with all VersaMax I/O carriers and can be mounted on DIN rails or panels for flexible installation. Electrical Specifications Number of outputs: 16 Output type: Triac-based AC switching (solid-state) Nominal voltage: 120 VAC Operating frequency: 47–63 Hz Maximum load current per point: 0.5 A Isolation: Group-to-backplane for electrical protection Backplane current consumption: 75 mA at 5 VDC Protection: Short-circuit, overcurrent, and free-wheeling diodes Mechanical & Environmental Specifications Module dimensions: ~30 × 80 × 60 mm Weight: 0.22 lbs Mounting: VersaMax I/O carrier (DIN-rail or panel) Operating temperature: 0 °C to 60 °C Storage temperature: –40 °C to +70 °C Relative humidity: 5%–95% non-condensing Indicators & Diagnostics One LED per output channel for ON/OFF status OK LED for module health FLD PWR LED for field power availability Key Features 16 solid-state 120 VAC output points Triac-based design ensures fast switching and long lifespan Individual output LEDs for quick diagnostics Group-to-backplane isolation for electrical safety Ideal for AC solenoids, contactors, lamps, and general-purpose AC loads Compact VersaMax form factor for dense installations Applications Control of AC-powered relays, solenoids, lamps, and small actuators Industrial machinery and automation Utility and building system AC control Retrofit and expansion for existing VersaMax PLC setups FAQ Q: Can this module drive inductive loads?A: Yes, but use external snubbers or suppression circuits to protect the triac outputs. Q: Does the module require external power for logic operation?A: No, all logic power is supplied via the VersaMax backplane; field power is only needed for load operation. Q: What type of isolation does this module provide?A: Group-to-backplane isolation protects PLC logic from noise and voltage spikes on the output channels.
$200.00 $100.00
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General Electric GE IC200MDL730 Discrete DC Output Module
Product Description The IC200MDL730 from GE Fanuc (Emerson) is an 8-channel 24 VDC discrete output module, designed for reliable control of field devices in industrial automation systems. It supports positive‑logic (sourcing) outputs, allowing the module to supply current directly to loads such as relays, solenoids, indicator lamps, and small actuators. Each output point is protected against short circuits and overcurrent conditions, ensuring both module and field wiring safety. Integrated LEDs for every channel, plus OK and Field Power (FLD PWR) indicators, provide fast diagnostics and operational status monitoring. The module mounts on any VersaMax I/O carrier and supports both DIN‑rail and panel installation, offering flexible deployment in compact control cabinets. Output Channel Configuration Total outputs: 8 points, single group Output type: Positive‑logic, sourcing Load current capacity: 2.0 A per output Nominal output voltage: 24 VDC (range 17.5–30 VDC) Maximum switching frequency: 10 Hz Protection & Reliability Short-circuit protection on each output Overcurrent protection Fault indication via amber LED Detected faults reported to VersaMax CPU These features ensure safe operation and quick fault identification in demanding industrial environments. Power & Electrical Requirements Backplane supply: 5 VDC Backplane current draw: 50 mA max External field power: 18–30 VDC nominal The module operates entirely from the VersaMax backplane for logic power, while driving external loads from a dedicated 24 VDC field supply. Indicators & Diagnostics One LED per output channel for status monitoring OK LED for module health FLD PWR LED for field power availability Amber fault LED for overcurrent or short circuit These visual indicators simplify troubleshooting and maintenance. Mechanical & Environmental Specifications Dimensions: 110 × 66.8 × 50 mm Weight: 0.38 kg Mounting: VersaMax I/O carriers (DIN-rail or panel) Operating temperature: 0°C to 60°C Storage temperature: –40°C to +70°C Relative humidity: 5%–95% non-condensing Key Features 8 discrete sourcing outputs at 24 VDC High load handling: 2 A per point Built-in short-circuit and overcurrent protection Individual point LEDs, plus OK and FLD PWR indicators Fast response: ~0.5 ms Compact VersaMax form factor Applications Control of relays, solenoids, and lamps Small actuator and motor control Machine automation requiring reliable digital outputs Retrofit or expansion of existing VersaMax systems FAQ Q: Can this module drive inductive loads?A: Yes, but external protection (flyback diodes or snubbers) is recommended for inductive devices. Q: Does the module require external power for logic operation?A: No. Logic power is supplied via the VersaMax backplane; external 24 VDC is only needed for the outputs. Q: What happens if a short circuit occurs?A: The affected output is protected by the built-in overcurrent circuit, and an amber fault LED is illuminated.
$200.00 $100.00
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General Electric GE IC200MDL243 VersaMax 16-Point AC Input Module
Product Description The IC200MDL243 is a 120 VAC discrete input module from GE Fanuc (Emerson), developed for the VersaMax I/O platform. It is intended for interfacing AC field signals with PLC systems, offering per-channel isolation to ensure stable signal acquisition in electrically noisy environments. Each input channel is independently isolated and includes its own return path, which minimizes cross-channel interference and improves signal integrity. The module is suitable for applications involving AC-powered devices such as pushbuttons, limit switches, and relay contacts. Input Channel Configuration Total input points: 16 Input type: AC discrete, positive logic Input wiring: Individual return per channel Signal type: 120 VAC field inputs This design allows accurate monitoring of independent AC signals without shared commons, reducing the risk of wiring-related faults. Electrical Characteristics Nominal input voltage: 120 VAC Operating voltage range: 0 to 132 VAC (47–63 Hz) ON state: Voltage range: 70 to 132 VAC Minimum current: 5 mA OFF state: Voltage range: 0 to 20 VAC Maximum current: 2.5 mA Input impedance: ~8.6 kΩ at 60 Hz ~10.3 kΩ at 50 Hz These parameters ensure compatibility with standard industrial AC control circuits. Response Performance Turn-on delay: up to 1 AC cycle Turn-off delay: up to 2 AC cycles The response timing is optimized for typical AC switching applications, balancing noise immunity and signal responsiveness. Isolation Specifications Channel-to-channel isolation: 250 VAC continuous 1500 VAC for 1 minute Field-to-logic isolation: 250 VAC continuous 1500 VAC dielectric withstand Full isolation across all input points enhances reliability in high-interference environments. Power Requirements Backplane supply: 5 VDC Current consumption: up to 100 mA External power supply: not required The module operates entirely from the VersaMax backplane, simplifying installation. Diagnostics and Indicators 16 individual status LEDs (one per input) 1 module OK LED for backplane power indication These indicators provide immediate visibility into input states and module health. Mechanical Details Dimensions: 110 × 66.8 × 50 mm Weight: 0.63 lb Mounting: installs on VersaMax carrier bases (IC200CHS series) Environmental Ratings Operating temperature: 0°C to +60°C Humidity: suitable for non-condensing industrial environments Hazardous locations: Class I, Division 2, Groups A–D compliant (per manufacturer documentation) Key Functional Features 16 independent AC input channels Full electrical isolation per input Designed for 120 VAC field signals No external power required Fast response aligned with AC cycle timing Integrated LED diagnostics Application Scenarios Monitoring AC control panels Industrial machinery with AC sensors Motor control centers (MCC) Process systems using AC discrete signaling Retrofit of legacy AC-based control systems FAQ Q: Does each input require a separate common terminal?A: Yes. Each channel has its own return path, which improves isolation and reduces wiring interference. Q: Can this module be used with DC signals?A: No. It is specifically designed for AC input signals and should not be used with DC inputs. Q: Is external power needed for operation?A: No. The module is powered directly from the VersaMax backplane.
$200.00 $100.00
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General Electric GE IC200MDD840 VersaMax Mixed Discrete I/O Module
Product Description The IC200MDD840 is a hybrid discrete I/O module from GE Fanuc (Emerson) designed for the VersaMax platform. It integrates both digital inputs and relay outputs within a single module, allowing efficient handling of sensing and control tasks in compact automation systems. This module combines 24 VDC sourcing inputs with electromechanical relay outputs, making it adaptable to both low-voltage control signals and higher-voltage load switching. It is commonly used in machine control panels where space optimization and wiring simplification are required. I/O Configuration Overview Total I/O channels: 32 Digital inputs: 20 channels Relay outputs: 12 channels (Form A, normally open) The mixed configuration reduces the need for separate input and output modules, simplifying system design and reducing installation footprint. Input Characteristics Input type: Positive logic (sourcing) Nominal voltage: 24 VDC Operating range: 0 to 30 VDC Input current (ON state): 2.0 to 5.5 mA Input current (OFF state): up to 0.5 mA Input impedance: ≤10 kΩ Response time: ON: 0.5 ms typical OFF: 10 ms typical These characteristics ensure reliable signal detection from sensors such as proximity switches, pushbuttons, and limit switches. Output Characteristics Output type: Relay contacts (Form A, normally open) Number of outputs: 12 Contact ratings: 2 A at 5–265 VAC (resistive load) 2 A at 5–30 VDC (resistive load) 0.2 A at 31–125 VDC Minimum switching load: 10 mA Output grouping: Two isolated groups of 6 outputs each (typical design architecture) Note: External protection devices (such as snubbers or fuses) are recommended for inductive loads. Electrical Requirements Backplane current draw: up to 375 mA at 5 VDC External supply range: 0–125 VDC (nominal 5 / 24 / 125 VDC) 0–265 VAC (47–63 Hz, nominal 120 / 240 VAC) Diagnostics and Indicators Individual LED indicators for each input and output point Dedicated module status LED (OK indicator) These indicators provide immediate visual feedback for commissioning and troubleshooting. Mechanical Specifications Dimensions: 110 × 66.8 × 50 mm Weight: 0.35 lb Mounting: Compatible with VersaMax carrier bases (IC200CHS series) Environmental Conditions Operating temperature: –20°C to +60°C Relative humidity: 5% to 95% non-condensing Designed for stable operation in industrial control cabinets with typical environmental stress factors. Key Functional Features Combined input and output functionality in one module Supports both DC sensing and AC/DC load switching Relay outputs provide electrical isolation from field loads LED diagnostics for each channel Space-efficient solution for mixed I/O requirements Application Scenarios Packaging and assembly machinery Conveyor and material handling systems OEM equipment panels General-purpose discrete control systems Applications requiring both sensor input and relay-driven output FAQ Q: Can this module drive inductive loads such as solenoids?A: Yes, but external suppression components (e.g., RC snubbers or flyback diodes) are recommended to protect relay contacts. Q: Are the outputs electrically isolated?A: The relay contacts provide isolation from the control electronics, and outputs are typically grouped for load segmentation. Q: Does the module require a separate power supply for outputs?A: Yes. External power must be supplied according to the load voltage requirements.
$200.00 $100.00
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General Electric GE IC200ERM002 VersaMax Expansion Receiver Module
Product Description The IC200ERM002 is a VersaMax expansion receiver developed by GE Fanuc (Emerson) to extend the I/O capacity of PLC or NIU-based systems. It functions as the interface between the main rack and additional expansion racks, enabling scalable system architectures without compromising communication integrity. This module is designed for distributed installations where multiple I/O bases must be interconnected. Using differential signaling over a dedicated expansion bus, it maintains reliable data transfer across extended distances while supporting flexible rack configurations. Expansion Architecture and System Capacity Maximum expansion racks: 7 Modules per expansion rack: up to 8 I/O or specialty modules Total system scalability: up to 56 additional modules The module supports both compact single-rack extensions and multi-rack distributed layouts, depending on application requirements. Communication Interface Expansion ports: 2 × 26-pin D-sub (female) connectors One for incoming connection, one for daisy-chain or termination Signaling method: RS-485 differential expansion bus Data transmission rate: 2.765 Mbps 5 Mbps (depending on system configuration) This communication design ensures stable performance even in electrically noisy environments. Cable Configuration Options Single-ended configuration: Maximum cable length: 1 meter (3.3 ft) Does not require expansion transmitter (ETM) Multi-rack configuration: Maximum cable length: 15 meters (50 ft) Requires IC200ETM001 expansion transmitter module Electrical Characteristics Backplane current consumption: 5 V DC: 70 mA 3.3 V DC: 20 mA Power supply: Provided via system backplane External power distribution handled through associated power supply modules Mechanical Specifications Dimensions: 66.8 × 128 × 69.1 mm Weight: 0.49 lb Installation position: Slot 0 (leftmost position) of expansion rack Mounting method: DIN rail or panel mounting Diagnostics and Indicators LED indicators include: Power status Expansion port activity (EXP1 / EXP2) Module health These indicators assist with commissioning and troubleshooting in multi-rack systems. Compatibility and Integration Compatible with VersaMax PLC CPUs and NIUs Supports all standard VersaMax I/O modules Some analog or specialty modules may require specific hardware revisions Key Functional Features Enables multi-rack expansion for VersaMax systems Dual-port design supports daisy-chain topology Reliable RS-485 communication for extended distances Supports both short-distance and distributed configurations Compact form factor aligned with VersaMax mechanical standards Application Scenarios Distributed control systems with remote I/O panels Large machinery with segmented control cabinets Process plants requiring scalable I/O expansion Infrastructure systems with physically separated control zones FAQ Q: Is an expansion transmitter always required?A: No. For short connections (≤1 meter), the receiver can operate without a transmitter. For longer or multi-rack setups, an ETM module is required. Q: Where should this module be installed in the rack?A: It must be installed in the first slot (slot 0) of the expansion rack to ensure correct communication. Q: Does this module provide electrical isolation?A: No. The IC200ERM002 is a non-isolated expansion receiver, so grounding and proper installation practices are important.
$200.00 $100.00
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General Electric GE IC200CPUE05 VersaMax Ethernet PLC CPU Module
Product Description The IC200CPUE05 is an advanced CPU module in the GE Fanuc (Emerson) VersaMax family, integrating high-speed processing with built-in Ethernet connectivity. It is designed for mid-level automation systems that require deterministic control, network communication, and scalable I/O expansion within a compact PLC architecture. This processor combines logic execution, communication services, and memory management into a single unit, making it suitable for distributed control systems, machine automation, and plant-level integration where Ethernet-based data exchange is required. Processing Capability and Memory Architecture Configurable user memory: 128 KB (application logic, registers, and analog data areas) Execution performance: 0.8 ms per 1K Boolean instructions Floating-point operations: Supported Auto-configuration: Supported for system setup The CPU uses non-volatile flash memory for firmware and application storage, complemented by battery-backed RAM for runtime data retention. I/O Expansion and System Capacity Maximum supported I/O modules: 64 Discrete Inputs: 2048 points Discrete Outputs: 2048 points Internal discrete memory: 1024 bits Temporary bits: 256 Global memory bits: 1280 This capacity allows the CPU to manage distributed I/O topologies across multiple racks. Communication Interfaces Serial Interfaces: 1 × RS-232 1 × RS-485 Ethernet Interface: 10 Mbps, half/full duplex RJ-45 connector Supported Protocols: SNP Slave Modbus RTU (Master/Slave depending on firmware) Serial I/O SRTP (Service Request Transport Protocol) EGD (Ethernet Global Data) UDP-based Station Manager NTP time synchronization EGD Data Exchange Capacity: Up to 32 exchanges 100 data variables per exchange Maximum 1400 bytes per exchange Memory Retention and Backup System Program storage: Non-volatile flash memory Working memory: Battery-backed RAM Real-time clock: Integrated RTC accuracy: ±100 ppm (approximately ±9 seconds/day) Backup mechanisms: Supercapacitor: Maintains memory for up to 1 hour after power loss Battery backup: Retains data for up to 6 months Battery shelf life: Approx. 5 years Power Requirements Backplane current consumption: 5 V DC: 220 mA 3.3 V DC: 570 mA Mechanical Characteristics Dimensions: 126 × 128 × 69.1 mm Weight: 0.63 lb Mounting options: DIN rail or panel installation Integrated controls: RUN/STOP switch Ethernet restart pushbutton LED indicators for diagnostics and communication status Environmental Specifications Operating temperature: 0°C to +60°C (typical VersaMax rating) Storage temperature: –40°C to +85°C Designed for industrial environments with standard vibration and EMC requirements Key Functional Features Integrated Ethernet and dual serial communication ports High-speed processing for time-critical control tasks 128 KB memory supporting complex applications Multi-protocol support including EGD and Modbus Dual backup system (battery + supercapacitor) Compatible with VersaMax EZ Program Store Application Scenarios Distributed PLC systems with Ethernet communication Manufacturing lines and automated machinery Utilities and water treatment control Process industries requiring real-time data exchange OEM equipment with remote monitoring capability FAQ Q: Does this CPU support Ethernet-based communication protocols?A: Yes. It supports SRTP, EGD, UDP communication, and time synchronization via NTP, enabling integration into industrial Ethernet networks. Q: What happens if power is lost?A: The supercapacitor maintains memory temporarily (up to 1 hour), while the battery preserves program and data for extended periods. Q: How does this model compare to IC200CPU002?A: The IC200CPUE05 offers significantly higher memory (128 KB vs 42 KB), faster execution, and built-in Ethernet, making it more suitable for networked and complex systems.
$200.00 $100.00
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General Electric GE IC200CPU002 VersaMax PLC CPU Module
Product Description The IC200CPU002 is a higher-capacity CPU module within the GE Fanuc (Emerson) VersaMax family, developed for modular control systems requiring more memory and expanded communication flexibility than entry-level CPUs. It integrates processing, memory management, and serial communications into a compact unit suitable for distributed and standalone PLC architectures. With increased user memory and support for both Modbus master and slave communication, this CPU is well suited for applications involving data exchange with multiple field devices, operator interfaces, and supervisory systems. Processing Performance and Memory User-configurable memory: 42 KB (program logic, registers, and analog data) Execution rate: 1.8 ms per 1K Boolean instructions Floating-point capability: Supported Runtime overrides: Available The system uses non-volatile flash for firmware storage combined with battery-backed RAM for application data retention, ensuring continuity during power interruptions. I/O Handling Capacity Discrete Inputs: 2048 channels Discrete Outputs: 2048 channels Internal Discrete Memory: 1024 bits Temporary Logic Bits: 256 Global Memory Bits: 1280 This configuration supports medium-scale automation systems with distributed I/O structures. Communication Interfaces Built-in ports: 1 × RS-232 1 × RS-485 Supported communication protocols: SNP Slave Modbus RTU Master and Slave Serial I/O The addition of Modbus Master capability allows this CPU to actively poll and control external devices such as drives and instrumentation. Memory System and Data Retention Program storage: Embedded flash memory Working memory: Battery-backed RAM Real-time clock: Integrated Time accuracy: ±2 seconds/day at 30°C Up to ±9 seconds/day across full temperature range Battery life: Typically up to 5 years under normal conditions Power Requirements Backplane current consumption: 5 VDC: 40 mA (base) / up to 140 mA with expansion devices 3.3 VDC: 100 mA Mechanical Characteristics Weight: 0.99 lbs Mounting: Installs on VersaMax carrier base Status Indicators: Integrated LED diagnostics for system and communication status Mode Selection: Physical RUN/STOP switch Environmental Specifications Operating temperature: 0°C to +60°C Storage temperature: –40°C to +85°C Designed for industrial environments with standard vibration and electrical noise tolerance Key Functional Features Expanded 42 KB memory for more complex control strategies Dual serial ports with Modbus RTU Master/Slave capability Battery-backed clock and memory retention Integrated diagnostics and hardware mode selector Compatible with full VersaMax I/O range Application Scenarios Distributed I/O control systems Packaging and assembly automation Water treatment and utilities OEM equipment with serial device integration Process control systems requiring Modbus master communication FAQ Q: What is the main difference between IC200CPU001 and IC200CPU002?A: The IC200CPU002 provides larger memory (42 KB vs 34 KB) and adds Modbus RTU Master functionality, making it more suitable for complex and communication-intensive applications. Q: Can this CPU communicate with multiple Modbus devices?A: Yes. Using the RS-485 port in Modbus Master mode, it can poll and manage multiple slave devices on the same network. Q: Does the module retain data after power loss?A: Yes. Battery-backed RAM preserves program and runtime data, and the real-time clock continues operating.
$200.00 $100.00
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General Electric GE IC200CPU001 VersaMax PLC CPU Module
Product Description The IC200CPU001 is a compact central processing unit designed for the GE Fanuc (Emerson) VersaMax PLC platform. It provides deterministic control, integrated serial communications, and scalable I/O handling for distributed automation systems and standalone machine control. This CPU is intended for applications requiring reliable execution of discrete and mixed control logic while maintaining a small system footprint. With built-in communication interfaces and flexible memory allocation, it supports integration with HMIs, SCADA systems, and remote I/O networks. Core Performance and Architecture User-configurable memory: 34 KB (allocated across program, registers, and analog data) Execution performance: 1.8 ms per 1K Boolean instructions (typical scan benchmark) Floating-point operations: Supported Override capability: Enabled for runtime control adjustments The architecture combines system flash for firmware storage with battery-backed RAM to retain user programs and runtime data during power loss. I/O Capacity and Data Handling Discrete Inputs: 2048 points Discrete Outputs: 2048 points Internal Discrete Bits: 1024 Temporary Bits: 256 Global Memory Bits: 1280 This capacity makes the CPU suitable for medium-scale control tasks, especially in distributed I/O configurations using VersaMax modules. Communication Interfaces Integrated Ports: 1 × RS-232 1 × RS-485 Supported Protocols: SNP Slave Modbus RTU Slave Serial I/O These interfaces allow direct connection to operator panels, supervisory systems, and serial field devices without requiring additional communication modules. Memory and Data Retention Memory Type: Flash + battery-backed RAM Data Retention: Program, register values, and system state Real-Time Clock: Integrated with battery backup Accuracy: ±100 ppm (approximately ±9 seconds per day) Power Requirements Backplane Supply Current: 5 V DC: 140 mA (typical with expansion devices) 3.3 V DC: 100 mA Note: Lower 5 V consumption may occur when optional storage modules are not installed. Mechanical Characteristics Weight: 0.25 lb Mounting: Installs on VersaMax I/O carrier base Programming Environment Supported Languages: Ladder Diagram (LD) Instruction List (IL) Engineering Software: Proficy Machine Edition (formerly Logic Developer) Key Functional Features Compact CPU suitable for modular VersaMax systems Integrated serial communication ports reduce need for expansion modules Flexible memory allocation for diverse control strategies Battery-backed clock for event logging and scheduled operations Designed for stable operation in distributed control architectures Application Scenarios Packaging and assembly machines Material handling systems Small process control loops Distributed I/O control panels OEM equipment integration FAQ Q: Does this CPU support Ethernet communication?A: No, the IC200CPU001 provides serial communication only. Ethernet capability requires additional modules or higher-end CPUs. Q: What happens to the program during power loss?A: The program and data are retained in battery-backed RAM. The real-time clock also continues running. Q: Is this CPU suitable for large-scale systems?A: It is best suited for small to medium applications. Larger systems may require higher-performance CPUs with expanded memory and communication options.
$200.00 $100.00
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General Electric GE IC200CHS002 VersaMax Box I/O Carrier Module
Product Description The IC200CHS002 VersaMax carrier from GE Fanuc (Emerson Automation) is a compact box-terminal mounting base designed to host a single VersaMax I/O module. It provides the electrical interface, mechanical support, and backplane connectivity required for reliable PLC system integration. Compared with open barrier-style carriers, this version adopts an enclosed terminal architecture, improving wiring density and protection. The integrated terminal block and hinged cover reduce exposure to contaminants and accidental contact, making it suitable for control panels with limited space or moderate vibration. The carrier incorporates a keyed module interface to prevent mismatched installation and supports online module replacement without disconnecting field wiring, which is critical for maintaining system uptime. Key Technical Specifications General Information Manufacturer: GE Fanuc / Emerson Automation Model: IC200CHS002 Product Type: Box-style I/O carrier Series: VersaMax Mounting Orientation: Horizontal Installation Method: DIN rail or panel mounting Electrical Characteristics Operating Voltage Range: 0 to 264 VAC Surge Withstand: Up to 300 VAC Current Capacity: 2 A per I/O channel 8 A per shared power/ground segment Terminal Type: Integrated enclosed box terminals Conductor Material: Copper (solid or stranded recommended) Terminal & Wiring Details Total Terminals: 36 (labeled A1–A18 and B1–B18) I/O Capacity: 32 signal channels 4 common/power terminals Supported Wire Size: Single conductor: AWG 22 to AWG 14 Dual conductor: up to AWG 18 per terminal Tightening Torque: 0.5–0.61 Nm Field Termination: Direct wiring into integrated terminal block Mechanical Properties Weight: 0.64 lb Mounting Rail: 35 mm DIN rail (EN 50022, 7.5 mm height) Panel Mounting: Recommended where vibration is present Clearance Requirements: Vertical: 50 mm (2 in) Horizontal: 25 mm (1 in) Protection: Transparent hinged terminal cover Environmental Conditions Grounding Requirement: DIN rail grounding recommended for EMC compliance Application Environment: Control cabinets with moderate vibration and high wiring density Design Features and Advantages Enclosed box-style terminals enable compact, organized wiring layouts Hinged cover provides physical protection and quick inspection access Integrated keying avoids incorrect I/O module insertion Supports hot insertion and removal of modules without rewiring Suitable for both discrete and analog VersaMax I/O modules Application Scenarios High-density PLC cabinets OEM machinery control panels Distributed I/O systems with space constraints Installations requiring improved wiring protection and reduced exposure FAQ Q: How does this model differ from IC200CHS001?A: The IC200CHS002 uses enclosed box terminals for higher wiring density and protection, while CHS001 features open barrier terminals for easier access and higher isolation visibility. Q: Can two wires be connected to one terminal?A: Yes, dual wiring is supported up to AWG 18 per terminal, depending on installation practice. Q: Is it suitable for analog modules as well as digital I/O?A: Yes. The carrier supports both analog and discrete VersaMax I/O modules within its current and wiring limits.
$200.00 $100.00
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General Electric GE IC200CHS001 VersaMax Barrier I/O Carrier Module
Product Description The IC200CHS001 from GE Fanuc (now Emerson) is a locally mounted barrier-style carrier designed for the VersaMax distributed I/O platform. It serves as the physical and electrical interface between field wiring and a single VersaMax I/O module, ensuring stable signal routing and reliable system integration. Engineered for demanding industrial environments, this carrier incorporates high-isolation screw terminals and a robust backplane connector, supporting consistent performance under electrical noise, vibration, and varying load conditions. Its integrated design enables module replacement without rewiring, minimizing downtime during maintenance. Key Technical Specifications General Information Manufacturer: GE Fanuc / Emerson Model: IC200CHS001 Product Type: Barrier-style I/O carrier Series: VersaMax I/O Orientation: Horizontal Mounting Type: DIN rail or panel mount Electrical Characteristics Rated Voltage: 264 VAC (continuous) Surge Tolerance: Up to 300 VAC Current Rating: 2 A per terminal 8 A total across common/power bus Insulation Design: Barrier-separated terminals for enhanced safety Recommended Conductor: Copper wire, 90°C rated Terminal & Wiring Details Terminal Count: 36 screw-type barrier terminals Supported Wire Size: AWG 22–14 (solid or stranded) Maximum I/O Capacity: 32 signal points 4 shared common/power connections Tightening Torque: 0.5–0.68 Nm Mechanical Properties Dimensions (approx.): 110 × 66.8 × 50 mm Weight: 0.40 kg Mounting Options: Standard 35 mm DIN rail (EN 50022) Direct panel mounting Backplane Interface: Slide-in locking connector integrated into carrier Environmental Conditions Operating Temperature Range: 0°C to +60°C Storage Temperature Range: –40°C to +70°C Installation Note: Grounded DIN rail recommended for optimal EMC performance Functional Highlights Barrier-isolated terminals reduce risk of short circuits and cross-channel interference Designed for high-current discrete I/O applications Supports hot module insertion and removal without disturbing field wiring Provides strong mechanical retention for wiring in vibration-prone installations Maintains consistent electrical contact via integrated backplane connector Typical Applications Discrete input/output interfacing in PLC systems Industrial control panels with high wiring density Process automation requiring reliable signal isolation Environments exposed to electrical interference or mechanical vibration FAQ Q: Can field wiring remain connected during module replacement?A: Yes. The carrier allows I/O modules to be removed and installed without disconnecting field wiring, reducing maintenance time. Q: What type of signals is this carrier best suited for?A: It is optimized for discrete I/O signals, especially where higher current capacity and electrical isolation are required. Q: Is shielding or grounding required?A: While not mandatory, grounding the DIN rail is strongly recommended to improve noise immunity and system stability.
$200.00 $100.00
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General Electric GE IC200ALG322D VersaMax 4-Channel 12-Bit ±10 VDC Analog Output
Product Description The IC200ALG322D from GE Fanuc / Emerson is a high-precision 4-channel analog voltage output module designed for the VersaMax I/O family. It provides stable ±10.24 VDC outputs with 12-bit resolution, making it ideal for industrial control of actuators, drives, dampers, PID loops, and other process automation devices. This module ensures accurate voltage control with minimal signal noise, featuring robust 250 VAC isolation between outputs and PLC logic. A fast 0.3 ms update rate guarantees responsive control in dynamic systems. Two LED indicators clearly display field-side power status (FLD PWR) and backplane power (OK). An external 18–30 VDC supply powers the output circuits, while logic power is drawn from the backplane, keeping energy consumption low. Its compact form factor mounts directly into a VersaMax I/O rack for seamless integration. Technical Specifications Output Channels Channels: 4 single-ended analog outputs Output range: –10.24 VDC to +10.24 VDC Resolution: 12-bit (≈2.5 mV per step) Update rate: 0.3 ms per module Minimum load: 5000 Ω resistive Power & Consumption External field-side supply: 18–30 VDC (user-supplied) Backplane draw: 50 mA @ 5 VDC Max current: 160–210 mA depending on supply voltage Isolation & Noise Immunity User-side to logic: 250 VAC continuous, 1500 VAC for 1 min Channel-to-channel crosstalk rejection: ≥ 70 dB Ensures noise-immune, stable analog output Indicators & Diagnostics LEDs: FLD PWR (field-side power), OK (backplane status) On fault: module holds last output or defaults to 0 V Detects field-side power loss for safe operation Environmental & Physical Operating temperature: –20°C to +60°C Storage temperature: –40°C to +85°C Dimensions: 110 × 66.8 × 50 mm Weight: 0.55 lbs Mounting: VersaMax I/O rack, 1 slot Applications Control of precision actuators, valves, and dampers Voltage regulation for drives and PID-controlled loops Industrial, manufacturing, and process automation systems requiring stable analog outputs FAQ Q: Can this module output current signals?A: No, IC200ALG322D provides only ±10.24 VDC voltage outputs. For 4–20 mA outputs, use a current output module. Q: What happens if field power is lost?A: The module retains the last output state or defaults to 0 V for safety. Q: How fast can the module update outputs?A: Outputs update every 0.3 ms per module, supporting fast process control loops.
$200.00 $100.00
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General Electric GE IC200ALG321 VersaMax 4-Channel 12-Bit Analog Output Module
Product Description The IC200ALG321 by GE Fanuc / Emerson is a 4-channel analog output module engineered for the VersaMax PLC system. It delivers precise 0–10.24 VDC signals with 12-bit resolution, enabling control of actuators, valves, VFDs, dampers, and other analog-driven process devices. This module is designed for industrial reliability, with robust isolation between the user-side outputs and the PLC logic, fast 0.3 ms update rate, and built-in diagnostics for detecting field-side power loss. Two front-panel LEDs indicate field power presence (FLD PWR) and backplane status (OK), ensuring clear visual monitoring of operational status. The module requires an external 18–30 VDC supply for output circuitry, while the logic power is fully supported from the VersaMax backplane. Technical Specifications Channels & Output Number of channels: 4 Type: Analog voltage outputs, single-ended Output range: 0–10.24 VDC Resolution: 12-bit (2.5 mV per step) Accuracy: 0.3% typical, ±1% max full scale Load capacity: ≥ 5000 Ω resistive, ≤ 1 µF capacitive Performance Update rate: 0.3 ms per module Response: Fast, suitable for process control loops and precision actuation Output behavior: Hold last state or output 0 VDC on CPU stop or communication loss Power & Isolation External field-side supply: 18–30 VDC nominal (supports 12/24 VDC systems) Backplane consumption: 50 mA @ 5 VDC Isolation: 250 VAC continuous, 1500 VAC for 1 min (user side to logic) Diagnostics & Indicators LEDs: FLD PWR (field-side power), OK (backplane) Detects loss of field-side power Provides safe default or hold-last output states during errors Mechanical & Environmental Dimensions: 110 × 66.8 × 50 mm Weight: 0.30 lbs Mounting: VersaMax I/O rack, occupies 1 slot Operating temperature: 0°C to 60°C Humidity: 5–95% non-condensing Applications Controlling analog valves, dampers, actuators, and motors VFD and speed regulation in process loops Industrial automation requiring precise voltage outputs FAQ Q: Can this module handle current outputs?A: IC200ALG321 is strictly a voltage output module; use a current output module for 4–20 mA applications. Q: Is external power required?A: Yes, 18–30 VDC is needed for the output circuits; logic power is supplied from the backplane. Q: How fast are the voltage updates?A: The module provides an update every 0.3 ms per module, suitable for high-speed control loops.
$200.00 $100.00
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General Electric GE IC200ALG230 VersaMax 4-Channel 12-Bit Analog Input Module
Product Description The IC200ALG230 from GE Fanuc / Emerson is a 4-channel analog input module designed for the VersaMax PLC platform. It provides precise 12-bit measurement for industrial voltage or current signals and supports flexible single-ended input configurations, making it ideal for process monitoring, control, and automation tasks. Channels can be independently set for voltage (±10 VDC default or 0–10 VDC selectable) or current mode (4–20 mA), allowing adaptation to a wide range of field devices. The module is powered entirely from the VersaMax backplane, requiring no external power, and includes LED indicators for backplane status (OK) and internally generated field power (INT PWR). Technical Specifications Channels & Input Number of channels: 4 analog inputs Input type: Single-ended, one common group Resolution: 12-bit (4096 counts) Voltage mode: ±10 VDC (bipolar) or 0–10 VDC (unipolar jumper-selectable) Current mode: 4–20 mA Input impedance: 126 kΩ (voltage), 200 Ω (current) Accuracy & Performance Voltage/current accuracy: ±0.3% typical @ 25°C, ±0.5% max @ 25°C, ±1% max 0–60°C Filter response: 5.0 ms Update rate: 0.4 ms per module Crosstalk rejection: ≥30 dB Common-mode voltage: 0 V Power & Isolation Backplane current draw: 125 mA @ 5 VDC External power: Not required Isolation: 250 VAC continuous (input to logic), withstand 1500 VAC for 1 min Diagnostics & Indicators LED indicators: OK (backplane power), INT PWR (internal field power) Module error reaction: Hold last state or switch to predefined value Detects loss of internal power automatically Configuration Jumper-selectable: Voltage/current mode, bipolar/unipolar selection Supports 2-row or 3-row terminal block carriers Mechanical & Environmental Weight: 0.31 lbs Mounting: VersaMax backplane Operating temperature: 0°C to 60°C Storage temperature: –40°C to +85°C Applications Industrial process monitoring Analog signal acquisition for automation systems Control loops in manufacturing and utilities FAQ Q: Can I switch between voltage and current modes in the field?A: Yes, IC200ALG230 allows jumper selection for voltage or current input per channel. Q: Does it require external power for operation?A: No, the module draws all necessary power from the VersaMax backplane. Q: How precise is the analog input?A: The module provides 12-bit resolution with ±0.3% typical accuracy at 25°C.
$200.00 $100.00
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General Electric GE IC200ACC201 VersaMax Expansion Terminator Terminal Block
Product Description The IC200ACC201 from GE Fanuc is a compact expansion terminator designed for VersaMax PLC systems. Its primary function is to terminate the expansion bus at the last I/O module, preventing signal reflections that can cause communication errors and ensuring stable data transmission across multiple modules. This plug-in terminator installs quickly without tools and is ideal for system expansions, maintenance, or field upgrades. Constructed from industrial-grade materials and certified for CE, UL, and CSA standards, it guarantees long-term reliability even in demanding industrial environments. Technical Specifications General Model: IC200ACC201 Series: VersaMax Type: Expansion Terminal Block / Terminator Plug Function: Terminates last expansion receiver in a chain to maintain signal integrity Electrical Operating Voltage: 24 VDC (interface only; does not process data) Protection: Electrical safeguards provided by connected modules Mechanical Form Factor: Plug-in module Installation: Tool-free, direct plug-in Dimensions: 50 × 25 × 20 mm Weight: 1.86 lbs Material: Industrial-grade plastic Environmental Operating Temperature: 0°C to +60°C Storage Temperature: –40°C to +85°C Relative Humidity: 5%–95% non-condensing Shock Resistance: 15 g, 11 ms Vibration Resistance: 1 g at 57–150 Hz Compatibility Supports all GE VersaMax PLC controllers and I/O modules Suitable for daisy-chaining multiple I/O modules Not hot-swappable; power must be off during installation Primary Function Terminates the final expansion module in a VersaMax chain Prevents signal reflection and communication faults Ensures stable, error-free communication across modules Applications Distributed control and monitoring systems Manufacturing and process automation Any VersaMax PLC setup requiring stable multi-module expansion FAQ Q: Can I install this module while the system is powered?A: No, the IC200ACC201 must be installed with power off. Q: Is it compatible with all VersaMax I/O modules?A: Yes, it supports the entire VersaMax PLC range. Q: Does it require any special tools for installation?A: No, the module is designed for tool-free plug-in installation.
$200.00 $100.00
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General Electric GE IC693BEM340 FIP Bus Controller Module
Product Description The IC693BEM340 is a high-performance FIP (Factory Instrumentation Protocol) Bus Controller designed for GE Fanuc Series 90‑30 PLC systems. It enables deterministic, high-speed communication between a Series 90‑30 PLC and FIP-compatible devices, including remote I/O racks, field control stations, and Series 90‑70 PLCs. This module installs directly into the PLC backplane and supports redundant FIP bus operation, ensuring reliable communication in mission-critical automation applications. Two 9‑pin FIP bus connectors provide dual-channel redundancy, while a 15‑pin RS‑485 serial port allows firmware updates and external configuration. Six front-panel LEDs provide real-time diagnostic status, including module health, bus activity, and transmit/receive signals. With software-configurable operation and no DIP switches or jumpers required, the IC693BEM340 simplifies deployment while maintaining high system reliability in demanding industrial environments. Technical Specifications Parameter Specification Model IC693BEM340 Manufacturer GE Fanuc / Emerson Product Type FIP Bus Controller Module PLC Compatibility Series 90‑30 Backplane Support Universal Backplane Slot Requirement 1 slot Weight 0.60 lb Backplane Current 1.2 A max Power Supply 24 VDC, 1 A FIP Bus Connectors 2 × 9‑pin male D‑sub, supports redundancy Serial Interface 15‑pin RS‑485 for configuration and firmware Supported Devices Series 90‑70 PLCs, Field Control Units, Remote Drops, Generic FIP devices LED Indicators Module OK, Run, Carrier Detect Ch.1/Ch.2, Transmit Enable Ch.1/Ch.2 Redundant Bus Support Yes, dual-channel FIP bus Operating Temperature –20 °C to +70 °C (typical) Storage Temperature –40 °C to +85 °C Humidity 5–95% non-condensing Certifications CE, UL Mounting Rack-mounted, vertical orientation Key Features & Advantages Interfaces Series 90‑30 PLCs with FIP serial bus networks Dual FIP connectors for redundant, high-reliability communication RS‑485 serial port enables firmware updates and configuration Six front-panel LEDs provide immediate diagnostic feedback Software-configurable operation with no physical switches needed Rack-mounted design supports universal backplane installation Applications Industrial process control requiring high-speed, deterministic communication Multi-rack PLC systems integrating Series 90‑30 and Series 90‑70 controllers Remote I/O monitoring and field control integration Systems where redundant communication and fault diagnostics are critical FAQ Q: Can the module operate without redundant FIP connections?A: Yes, it functions with a single FIP bus but dual connectors provide redundancy for critical applications. Q: How are firmware upgrades performed?A: Firmware can be upgraded via the 15‑pin RS‑485 serial port using GE’s configuration tools. Q: What is the maximum operating temperature?A: The module is rated for –20 °C to +70 °C operating temperature.
$200.00 $100.00
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General Electric GE Fanuc IC693BEM341 2.5 MHz FIP Bus Controller Series 90‑30
Product Description The IC693BEM341 is a high-performance FIP (Factory Instrumentation Protocol) Bus Controller designed for GE Fanuc Series 90‑30 PLCs. This single-slot module delivers deterministic, high-speed communication at 2.5 MHz between the PLC and distributed FIP network devices, including I/O blocks, drives, controllers, and remote PLCs. Equipped with two 9‑pin FIP network ports and an RS‑485 port for firmware upgrades, the module supports operational Modes 11, 20, and 30. These modes enable redundancy management, slave-device monitoring, synchronous messaging, and Boolean time-stamping for up to 1024 values. Front-panel LEDs provide real-time diagnostics including module status, RUN state, carrier detection (CD1/CD2), and transmission enable (TEN1/TEN2), simplifying troubleshooting and system monitoring. Key Features High-speed FIP communication at 2.5 MHz Single-slot installation in Series 90‑30 baseplates Two 9-pin D-shell FIP connectors for network devices RS‑485 port for firmware upgrades Supports operational Modes 11, 20, 30 with redundancy and synchronous messaging Boolean value time-stamping for advanced data logging Compatible with Series 90‑30 CPUs (firmware 8.10+) and Series 90‑70 PLCs Front-panel LEDs: Module OK, RUN, CD1/CD2, TEN1/TEN2 Technical Specifications Communication Protocol: Factory Instrumentation Protocol (FIP) Fixed Data Rate: 2.5 MHz Ports: Two 9-pin D FIP connectors; One RS‑485 port Supported Modes: 11, 20, 30 (DIP-switch configurable) Functions: Redundancy, slave-device monitoring, synchronous messaging, Boolean time-stamping Electrical Backplane Power: Typical 800 mA @ 5 VDC; Maximum 1.2 A @ 5 VDC Slot Width: Single-slot Indicators LEDs: Module OK, RUN, CD1, CD2, TEN1, TEN2 Mechanical Dimensions: 100 × 127 × 60 mm (typical) Weight: 0.75 lbs Mounting: Slot 1 of Series 90‑30 baseplate Environmental Operating Temperature: 0–55 °C Storage Temperature: –25–70 °C Humidity: 5%–95% non-condensing Vibration: 0.2-inch displacement (5–10 Hz) Ingress Protection: IP20 Applications Distributed I/O networks for PLC systems CNC and servo drive integration Redundant control system architectures High-speed deterministic data exchange Multi-controller synchronization and monitoring FAQ Q: Can this module support redundancy?A: Yes, operational Modes 20 and 30 allow redundant network setups and fault-tolerant operation. Q: What devices are compatible with IC693BEM341?A: Compatible with Series 90‑30 CPUs (firmware 8.10+), Series 90‑70 PLCs, I/O blocks, drives, and FIP-enabled control devices. Q: How is firmware updated?A: Via the RS‑485 port on the module, using supported configuration tools. Q: What is the maximum number of Boolean values supported for time-stamping?A: Up to 1024 Boolean values can be time-stamped for logging and diagnostics.
$200.00 $100.00
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Yokogawa Yokogawa AIP423 | 16-Channel Analog Input Module | CENTUM VP/CS 3000
Product Description: The Yokogawa AIP423 is a high-performance analog input module specifically designed for use in Yokogawa CENTUM VP and CENTUM CS 3000 Distributed Control Systems (DCS). As part of the FIO (Field Input/Output) series, this module is optimized for high-density signal acquisition, offering reliable voltage input functionality in demanding industrial environments. The AIP423 plays a key role in converting field signals into digital data that can be processed by the control systems while ensuring galvanic isolation to protect the core system electronics from electrical interference coming from field-side sources. This module supports 16 input channels, each capable of processing voltage signals in the range of 1 to 5 V DC, ideal for various industrial control applications such as temperature and pressure monitoring. The high accuracy of ±0.1% of full span guarantees precise data conversion, making it suitable for critical process control. Key Features: 16 Input Channels for efficient signal processing, making it ideal for high-density signal applications. Input Signal Range: 1 to 5 V DC, supporting standard industrial voltage signal measurements. Input Resistance: 1 MΩ or higher (during power on) for optimal signal conditioning. Accuracy: ±0.1% of full span, ensuring precise and reliable measurements. Isolation: 1500 V AC isolation between field devices and system, protecting sensitive control electronics. Data Refresh Cycle: 10 ms, enabling fast and continuous signal updates for real-time control. Power Consumption: Max. 450 mA (5 V DC from backplane) for energy-efficient operation. Mounting: Easily installs in FIO Node Units (e.g., ANB10, ANB11, ANT10), compatible with existing CENTUM systems. This module is particularly useful in applications where accurate voltage measurement and signal isolation are required. It ensures optimal integration and protection within the broader Yokogawa DCS architecture. Applications: Voltage Signal Processing: Perfect for applications that need precise voltage measurements, such as pressure transducers and temperature sensors. Industrial Control: Ideal for industrial process control tasks requiring reliable and fast data acquisition. FAQ: Q: How many input channels does the AIP423 support?A: The AIP423 supports 16 input channels, each capable of processing 1-5 V DC voltage signals. Q: What is the input resistance of the AIP423?A: The input resistance is 1 MΩ or higher during power-on conditions, ensuring minimal signal distortion. Q: What kind of isolation does the AIP423 provide?A: The AIP423 offers 1500 V AC isolation between field devices and the control system, protecting sensitive electronics from electrical interference.
$200.00 $100.00
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Yokogawa Yokogawa AIP121-S2 | 16-Channel Analog Input Module | CENTUM VP/CS 3000
Shopify Product Title: Yokogawa AIP121-S2 | Analog Input Module | CENTUM VP/CS 3000 | 16 Channels Product Description: The Yokogawa AIP121-S2 is a high-performance analog input module designed to work seamlessly within the Yokogawa CENTUM VP and CENTUM CS 3000 Distributed Control Systems (DCS). This module plays a crucial role in the system’s FIO (Field Input/Output) architecture, specifically engineered for industrial environments where reliable and precise signal acquisition is essential. It is optimized for interfacing with 2-wire or 4-wire transmitters, ensuring accurate measurement and isolation of field data. With 16 isolated input channels, the AIP121-S2 can handle a range of input signals, including the widely-used 4-20 mA DC current loop. The module offers high-density signal conditioning, ensuring that field signals are converted and isolated efficiently before being sent to the system’s control units. Key Features: 16 Isolated Analog Input Channels for reliable data acquisition in challenging industrial environments 4 to 20 mA DC input signal compatibility, supporting standard current loop signals Impedance: 250 Ω (Typical) for optimal signal conditioning Accuracy: ±0.1% of full span, ensuring precise measurement of field signals High Isolation: 1500 V AC isolation between field devices and system, protecting your system from electrical disturbances Update Time: 10 ms per 16 channels, enabling fast data processing and response Low Power Consumption: Max. 450 mA (5 V DC from backplane) for energy-efficient operation Mounting Compatibility: Designed for installation in ANB10, ANB11, or ANT10 units for easy integration into existing setups This module is ideal for applications where high-accuracy and reliable signal acquisition are paramount, such as temperature monitoring, pressure measurements, or flow control in industrial automation systems. Applications: Temperature, Pressure, and Flow Measurement: Suitable for use in industrial control systems where continuous, accurate data is crucial. Process Control: Essential in maintaining optimal conditions for sensitive manufacturing processes. FAQ: Q: Can the AIP121-S2 handle both 2-wire and 4-wire transmitters?A: Yes, the AIP121-S2 is designed to interface with both 2-wire and 4-wire transmitters for maximum flexibility in signal acquisition. Q: What is the maximum isolation voltage?A: The AIP121-S2 offers 1500 V AC isolation between field devices and the system, ensuring protection against electrical surges and noise. Q: How many channels does the module support?A: The AIP121-S2 supports up to 16 isolated analog input channels, making it ideal for applications with multiple sensors.
$200.00 $100.00
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Yokogawa Yokogawa AIP602 Vnet Coupler Unit for CENTUM VP & CS 3000
Product Overview: The Yokogawa AIP602 is a high-performance Vnet Coupler Unit, also known as a Vnet/IP to Vnet Gateway, used within the CENTUM VP and CENTUM CS 3000 systems. Unlike PC cards like the AIP827, the AIP602 is a standalone, rack-mounted hardware device designed to facilitate communication between different control network segments or domains. It is a crucial component for ensuring high-reliability communication over large distances or complex network topologies. Key Features: Dual Redundancy: Fully supports Yokogawa’s redundant network architecture (Bus 1 and Bus 2), ensuring reliable and fault-tolerant communication between network segments. Galvanic Isolation: Provides electrical isolation between different segments of the network to protect against ground loops and electromagnetic interference (EMI), ensuring clean and stable signal transmission. Signal Conditioning: Regenerates and conditions the digital signal, maintaining clean waveforms and preventing data corruption over long-distance cable runs. Hot-Swappable: Designed for industrial availability, this feature allows for maintenance or replacement without interrupting the operation of the entire control network. Flexible Connectivity: Supports both Vnet (coaxial) and Vnet/IP (RJ45/fiber), making it adaptable for various configurations and network needs. Technical Specifications: Parameter Specification Details Model Number AIP602 Function Vnet/IP or Vnet Coupler / Gateway Mounting 19-inch Rack-mount or Baseplate-mount Network Type Vnet (Coaxial) / Vnet/IP (RJ45/Fiber) Redundancy Dual-redundant communication Power Supply 100-120 VAC or 220-240 VAC (Model dependent) Operating Temp 0°C to +50°C Common Use Cases: Domain Coupling: Used to connect a Domain 1 control network to a Domain 2 network, ensuring logical separation of traffic while allowing communication between different control systems. Distance Extension: Acts as a signal repeater, extending the physical distance between Field Control Stations (FCS) when it exceeds the typical cable limitations. Media Conversion: Facilitates media conversion from coaxial Vnet to fiber-optic or Ethernet-based Vnet/IP in certain configurations, allowing for flexible network setups. Troubleshooting & Maintenance: Status Indicators: STATUS (Green): Normal operation. ERROR (Red): Indicates an internal hardware failure or configuration mismatch. RCV/SND (Orange): Indicates data traffic activity. Cable Integrity: Since the AIP602 often serves as the mid-point in a network, failure of this unit can disrupt communication for an entire segment of the plant. Ensure BNC connectors for Vnet are properly connected and terminated with 50Ω resistors, especially if the unit is at the end of a line. Environmental Check: The unit may be placed in satellite rack rooms, making it susceptible to dust buildup. Regularly check that cooling vents are clear to prevent overheating and thermal shutdowns. Hardware Notes: If you are migrating a legacy CENTUM CS system to CENTUM VP, the AIP602 often serves as the critical bridge that facilitates communication between new VP stations and older CS control stations.
$200.00 $100.00
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Yokogawa Yokogawa AIP827-1 Vnet/IP Interface Card for CENTUM VP
Product Overview: The Yokogawa AIP827-1 is a high-performance Vnet/IP Interface Card used in Human Interface Stations (HIS) and Engineering Stations (ENG) within Yokogawa’s CENTUM VP and CENTUM CS 3000 Distributed Control System (DCS) environments. Unlike traditional I/O modules, the AIP827-1 is a PCI Express (PCIe) card that installs directly into a PC or server, enabling communication with Yokogawa’s proprietary Vnet/IP network for real-time control applications. Key Features: Dual-Redundant Ports: Equipped with two RJ45 Ethernet ports to connect to "Bus 1" and "Bus 2" of the redundant Vnet/IP network, ensuring high availability and reliability for mission-critical applications. PCI Express Interface: The card uses a PCIe x1 slot, making it compatible with modern industrial PCs and workstations (e.g., Dell or HP), offering fast data transfer capabilities. High-Speed Communication: With 1 Gbps network speed, the AIP827-1 guarantees that process data, alarms, and control commands are transmitted with the determinism required for industrial safety. Time Synchronization: Supports high-precision time synchronization across the DCS network, ensuring accurate event logs to the millisecond, essential for system diagnostics and troubleshooting. Offloading Processor: The onboard processor handles network protocol stacks, freeing the PC’s main CPU from managing network traffic and ensuring smoother operations during high-traffic periods. Technical Specifications: Parameter Specification Details Model Number AIP827-1 Interface Type PCI Express (PCIe) x1 Network Speed 1 Gbps (1000Base-T) Connector Type 2 x RJ45 (Shielded) Network Protocol Vnet/IP (Yokogawa Proprietary) Max Stations Up to 64 stations per domain Power Consumption Max 5.0 W Supported OS Windows 10 / Server 2016/2019/2022 (Revision-dependent) Operating Temperature 0°C to 60°C Application & Functionality: The AIP827-1 is essential in a Vnet/IP setup, allowing the Human Interface Station (HIS) or Engineering Station (ENG) to interface with Field Control Stations (FCS) and other nodes. This ensures timely and reliable data transmission for critical process control, alarm monitoring, and control operations.
$200.00 $100.00
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