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TRICONEX 3511 analog input module

Key Features of TRICONEX 3511:

  1. Module Type:
    • The 3511 is an analog input module designed for use in safety instrumented systems (SIS).
    • It is used to interface with analog field devices like pressure sensors, temperature transmitters, flow meters, and other analog equipment that provide continuous signals.
  2. Input Channels:
    • The module typically supports 8 or 16 analog input channels, allowing it to process multiple sensor signals simultaneously.
    • It can handle signals such as 4-20 mA, 0-10 VDC, and other common industrial analog inputs.
  3. Redundancy:
    • Operates with Triple Modular Redundancy (TMR), ensuring fault tolerance. The system automatically handles faults by using the remaining healthy channels, preventing downtime and ensuring continuous operation.
    • Each channel has its own independent processing unit, ensuring the highest degree of reliability.
  4. Safety Certifications:
    • The 3511 is certified for SIL 3 (Safety Integrity Level) applications, which complies with IEC 61508 standards. This certification makes it suitable for use in critical safety systems where high safety standards are required.
    • This is ideal for industries like oil and gas, chemical, pharmaceuticals, and power generation, where safety is paramount.
  5. Diagnostic Capabilities:
    • Built-in self-diagnostics help identify any issues with the module or its connected field devices, reducing the need for manual troubleshooting and downtime.
    • LED status indicators provide visual feedback on module performance and signal health.
  6. Power Requirements:
    • The 3511 module operates on 24 VDC, a standard voltage used in industrial and safety systems.
  7. Mounting:
    • Designed for DIN rail mounting, making it easy to install in standard control panels and cabinets.
  8. Environmental Conditions:
    • Operating Temperature Range: Typically between -20°C to 60°C (-4°F to 140°F).
    • Storage Temperature Range: From -40°C to 85°C (-40°F to 185°F).
    • Humidity: Can operate in environments with up to 95% relative humidity, non-condensing.
  9. Communication:
    • Uses proprietary communication protocols to communicate with other Triconex system modules.
    • High-speed data transfer ensures real-time monitoring and control, enabling immediate response to safety-critical events.

TRICONEX 3511 Pulse Module – High Precision Input for Reliable Process Control

Invensys Triconex 3511 Pulse Input Module, High-Performance Process Control Solution

 

TRICONEX 4351B digital input module

The TRICONEX 4351B is part of the Triconex Safety System by Emerson, specifically designed for safety instrumented systems (SIS), process control, and industrial automation. It is typically used in critical safety applications that require high availability, fault tolerance, and redundancy.

Key Features of the TRICONEX 4351B:

  1. Module Type:
    • The 4351B is a digital input module for the Triconex safety system, providing inputs for a range of industrial processes.
    • It is part of the Tricon system, which is based on a Triple Modular Redundant (TMR) architecture for fault tolerance, ensuring safety and reliability.
  2. I/O Channels:
    • Typically supports digital input channels for discrete sensors, such as limit switches, pressure sensors, or emergency shutdown switches.
    • It can handle multiple discrete inputs for real-time monitoring and control in safety-critical applications.
  3. Redundancy:
    • The 4351B operates in a TMR configuration, where three independent modules are used to ensure continuous operation and fault tolerance in case of module failure.
    • The system automatically detects and compensates for any faulty module, ensuring no system downtime.
  4. Communication:
    • The Triconex 4351B communicates with the Triconex controllers using proprietary communication protocols.
    • It supports high-speed data transfer to and from the control system for real-time operations.
  5. Power Supply:
    • The module is powered by a 24 VDC input, commonly used in industrial systems.
  6. Mounting:
    • DIN-rail mountable for easy installation in control cabinets and industrial panels.
  7. Diagnostics and Monitoring:
    • Features LED status indicators for easy monitoring of module health and operational status.
    • Supports self-diagnostics to identify faults within the module or connected devices.
  8. Environmental Rating:
    • Typically designed for industrial environments with an IP20 or IP40 protection class.
    • It has an operating temperature range of -20°C to 60°C (-4°F to 140°F), but it is always good to refer to the datasheet for exact environmental conditions.

Applications:

  • Safety Instrumented Systems (SIS) for protecting against hazardous events.
  • Emergency Shutdown (ESD) Systems in industries such as oil and gas, chemical processing, and power generation.
  • Process Control in critical manufacturing systems, where safety is paramount.
  • Fire and Gas Detection systems.

Triconex 4351B – High-Performance 10/100BaseT Communication Interface Module

TRICONEX 4351B COMMUNICATION MODULE, Advanced Control Solutions for Industrial Automation

 

Triconex TCM4351B: Advanced IO Cards for Industrial Control Systems

TRICONEX 4351B Communication Module: Reliable Industrial Control Solution

 

PACIFIC SCIENTIFIC 33VM52-000-29 Electric machine

The PACIFIC SCIENTIFIC 33VM52-000-29 is a type of electric motor, and based on the part number format, it appears to belong to the VM Series from Pacific Scientific, which typically includes permanent magnet motors or DC motors used in industrial and commercial applications. However, the specific technical details can vary, and without direct access to the datasheet, I can provide a general overview of typical features you might expect from motors in this series.

Common Specifications for Pacific Scientific Motors:

  1. Type of Motor:
    • Likely a DC Permanent Magnet (PMDC) motor or brushless DC motor.
    • Can also be part of a servo motor system, depending on the series.
  2. Power Rating:
    • Typically in the range of 100 W to 5 kW, depending on the specific model and application.
  3. Voltage Rating:
    • Common voltage ratings could be 24V, 48V, or 90V DC, but these can vary.
  4. Speed:
    • Variable speed, usually controllable using an external controller (e.g., via pulse-width modulation or a dedicated controller).
    • Speed might range from 1000 to 5000 RPM, but this is highly dependent on the motor’s design.
  5. Torque:
    • Rated torque depends on the motor size, but typically the motors in this series would provide low to medium torque in the range of 0.5 to 10 Nm or higher for larger variants.
  6. Efficiency:
    • Typically, the efficiency class would be in the range of 80% to 90% for a well-designed permanent magnet motor.
  7. Construction:
    • Often these motors come with continuous duty ratings and are built for reliability in industrial settings.
    • Common features include rugged construction, IP-rated enclosures (often IP54 to IP65 for protection from dust and water).
  8. Mounting Type:
    • The mounting configuration can be flange or foot-mounted, with some variants offering flexibility in shaft and mounting design for integration into different machinery.
  9. Temperature Rating:
    • Typically rated for ambient temperatures between -20°C and 40°C, but specific ratings depend on the application.
  10. Control Compatibility:
    • Compatible with servo controllers, variable speed drives (VSDs), or DC motor controllers for speed and torque management.

Pacific Scientific E42HLLB-LNK-NS-01 DC Servo Motor, Advanced Industrial Control Solution

Pacific Scientific 6410-001-C-N-N Microstepping Drive Module, High-Performance Stepper Motor Control

 

ABB DKTFM418B 3BHB015651P0001 controller

The GE IS220PDOAH1B is a Discrete Output Pack within the Mark VIe control system, designed to manage discrete output signals in industrial automation applications.

Key Specifications:

  • Part Number: IS220PDOAH1B
  • Manufacturer: General Electric
  • Series: Mark VIe
  • Product Type: Discrete Output Pack
  • Dimensions: 8.26 cm (H) x 4.19 cm (W) x 12.1 cm (D)
  • Weight: Approximately 0.8 kg
  • Relay Channels: 12 channels for controlling relays
  • Relay and Coil Monitoring: 15 pack inputs for monitoring
  • Technology: Surface-mount technology

Features:

  • Relay Control: Supports up to 12 relays, with options for electromagnetic and solid-state relays, allowing flexibility based on application requirements.
  • Connectivity: Equipped with dual RJ45 Ethernet connectors for reliable and redundant data exchange, and a DC-37 pin connector for output connections to the terminal board.
  • Power Supply: Utilizes a three-pin power input with soft-start capabilities, ensuring stable and efficient operation.
  • Monitoring & Diagnostics: Features LED indicators for real-time status updates and an infrared port for local diagnostics and configuration, facilitating easy monitoring and troubleshooting.

ABB 3BHB022793R0001 – ASE2 UD C920 AE01 – Digital Control Module

ABB SYN5200a-Z, V217 3BHB006713R0217 – Advanced Control Module for Industrial Automation

https://www.abbbrand.com/product/abb-3bhb004661r0001-kuc711ae-module-advanced-industrial-control-solution/

https://www.abbbrand.com/product/abb-3bhb006943r0002-uns0885a-z-v2-industrial-controller/

 

PROSOFT 5302-MBP-MCM4 module

The ProSoft Technology 5302-MBP-MCM4 is a stand-alone gateway that facilitates communication between Modbus Plus networks and Modbus devices. This DIN-rail mounted module is equipped with one Modbus Plus port and up to four serial ports, supporting both Master and Slave configurations for seamless integration in various industrial applications.

Key Features:

  • Modbus Plus Port: Supports both Master and Slave modes, fully configurable via a DB9 female connector.
  • Modbus Serial Ports: Up to four individually configurable ports supporting RS-232, RS-422, and RS-485 interfaces, allowing for flexible host or device connections.
  • Protocol Support: Compatible with Modbus RTU and ASCII modes, with configurable baud rates ranging from 110 to 115 kbps.
  • Command List Capacity: Supports up to 200 commands on the Modbus Plus Master port and up to 100 commands per Modbus Master serial port, facilitating complex communication tasks.

Technical Specifications:

  • Power Supply: 24 VDC nominal (18 to 36 VDC allowed), with a maximum current load of 500 mA at 24 VDC.
  • Operating Temperature: -20°C to 50°C (-4°F to 122°F).
  • Storage Temperature: -40°C to 85°C (-40°F to 185°F).
  • Humidity: 5% to 95% non-condensing.
  • Dimensions: Standard module measures 5.20 inches in height, 2.07 inches in width, and 4.52 inches in depth.
  • Weight: Approximately 1.61 lbs (0.73 kg).
  • LED Indicators: Provide status updates for power, module status, application status, and serial port activity.

PROSOFT MVI56E-MCM Communication Module

Prosoft MVI56-MNET: Ethernet Networking for Advanced Industrial Automation

 

ABB 3BHL000986P0006 module

The ABB 3BHL000986P0006 is a servo drive module used in industrial automation applications. It is part of ABB’s extensive range of motion control and automation solutions designed to drive high-precision systems, typically in manufacturing environments, robotics, and other processes requiring high levels of motion control.

Here are the key specifications and features of the ABB 3BHL000986P0006:

Key Specifications of ABB 3BHL000986P0006

  • Product Type:
    • Servo Drive Module – This module is designed for controlling the operation of electric motors, particularly in systems requiring precise position, speed, and torque control. It is suitable for integration into automated systems that demand high performance and reliability.
  • Rated Power:
    • The ABB 3BHL000986P0006 typically supports 3-phase AC motors and can be used with motors rated from a few hundred watts to several kilowatts, depending on the configuration and application.
  • Control Method:
    • The module uses vector control or PWM (Pulse Width Modulation) for accurate control of the motor’s speed, torque, and position. This allows for high performance and efficiency in variable-speed and precision motion applications.
  • Current Rating:
    • This module can typically handle currents up to 30 A or more, depending on the specific model and configuration, ensuring it can drive motors with significant power requirements.
  • Communication and Integration:
    • The ABB 3BHL000986P0006 supports a variety of industrial communication protocols for easy integration into automation systems. This typically includes:
      • Ethernet/IP
      • Modbus TCP
      • PROFIBUS DP or EtherCAT
      • CANopen (depending on the exact configuration)
    • This ensures seamless communication with PLCs, HMIs, and other control systems in industrial applications.
  • Feedback and Encoder Support:
    • The drive typically supports a wide range of encoders for feedback, including incremental and absolute encoders, as well as resolver feedback for precise motor positioning.
    • This makes the module suitable for applications requiring high accuracy, such as robotics, CNC machines, and automated assembly systems.
  • Control Features:
    • Torque Control: Ensures accurate torque delivery for motor applications requiring precise force control.
    • Speed Control: Offers precise speed regulation, ideal for systems requiring constant speed or variable speed in a controlled manner.
    • Position Control: When combined with feedback encoders, the module can control the motor’s position very precisely, which is essential in applications like CNC machining and robotic arms.
    • Overload Protection: Includes protective features to safeguard against motor overload, ensuring reliability and longevity.
  • Environmental Conditions:
    • Operating Temperature: Typically operates within a temperature range of -10°C to +40°C (depending on installation and cooling), making it suitable for most industrial environments.
    • Humidity: Designed to operate in environments with humidity levels of up to 95% (non-condensing).

ABB 3BHB003230R0101 + 3BHL000392P0101 5SHX1060H0001 IGCT MODULE: Industrial Control Excellence

ABB Advanced AC Drive – 3BHL000387P0101 & 5SHX1445H0002 & 3BHB003386R0101 & GVC705AE01 & 5SGX1445H0002

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ABB 5SHX2645L0004 3BHL000389P0104 IGBT Module

 

ABB AO2000 LS25 Analog Output Module

The ABB AO2000 LS25 is part of ABB’s AO2000 Series of I/O modules designed for industrial control systems, specifically used for analog output applications. Below are the detailed specifications for the ABB AO2000 LS25 module:

ABB AO2000 LS25 – Key Specifications

  • Module Type: Analog Output Module (AO)
    • Designed to provide precise control and feedback for processes that require analog output signals.
    • Typically used in distributed control systems (DCS), programmable logic controllers (PLC), and other industrial control systems.
  • Channels:
    • 25 Analog Output Channels on a single module.
    • Each channel is capable of delivering analog signals to control actuators, valves, or other devices requiring analog input in industrial automation systems.
  • Output Signal Range:
    • Voltage Output: Typically supports output voltage ranges such as 0-10V, 1-5V, or -10V to +10V (configurable).
    • Current Output: 4-20mA is a common configuration for industrial applications requiring proportional control signals.
  • Resolution:
    • Provides high 16-bit resolution for accurate analog signal generation, allowing for fine-grained control over industrial processes.
  • Output Accuracy:
    • High accuracy in both voltage and current output, ensuring reliable operation in systems that require precise signal control.
  • Power Supply:
    • Typically operates with a 24V DC power supply, standard for industrial automation I/O modules.
  • Communication Interface:
    • Integrated with the ABB 800xA, S+ Automation, or other control systems using industry-standard communication protocols such as Profibus, Modbus, or Ethernet/IP.
    • Supports integration into centralized or decentralized control architectures, enhancing system flexibility and scalability.
  • Mounting:
    • Designed to be rack-mounted in control panels or modular I/O systems, making it easy to integrate into existing infrastructure.
  • Environmental Conditions:
    • Operating Temperature: Typically, the module operates within a temperature range of -20°C to +60°C (-4°F to +140°F), making it suitable for industrial environments with moderate to high temperatures.
    • Humidity: Rated for typical industrial humidity conditions.
  • Safety Standards and Compliance:
    • Designed to meet international safety and compliance standards, ensuring reliability and safety in mission-critical applications.
  • Redundancy and Diagnostics:
    • Built-in diagnostics for continuous monitoring of module health, output integrity, and signal quality.
    • Supports redundant configurations for critical applications, ensuring high availability and reliability.

 

ABB AO2000 Integrated Analyzer System, High Precision, Efficient Monitoring, Industrial Automation

 

ABB AO2000 LS25 Controller Module

ABB AO2000 LS25 – High-Performance Industrial Control Module

ABB AO2000 Integrated Analyzing System – Advanced Industrial Monitoring & Control Solution

 

IPH MARINE PD-5010-LCD module

The IPH Marine PD-5010-LCD is a marine display and control panel designed for use in ship systems and offshore environments. It provides a robust, user-friendly interface for monitoring and controlling marine equipment. The device integrates an LCD screen with configurable inputs and outputs, enabling seamless interaction in harsh maritime conditions.


Key Features of the IPH Marine PD-5010-LCD

  1. High-Resolution LCD Display:
    • Equipped with a color LCD screen for clear visualization of data.
    • High brightness and contrast for visibility in various lighting conditions, including direct sunlight.
    • Screen size typically 10 inches or larger for easy readability.
  2. User-Friendly Interface:
    • Touchscreen capabilities for intuitive operation.
    • On-screen menus for configuring settings and monitoring system status.
    • Customizable layouts to display critical parameters such as engine performance, fuel levels, and navigation data.
  3. Input and Output Interfaces:
    • Supports multiple analog and digital inputs/outputs to interface with sensors, alarms, and other marine systems.
    • Compatibility with common marine communication protocols for seamless integration.
  4. Communication Protocols:
    • NMEA 0183/NMEA 2000: Standard protocols for marine data communication.
    • Modbus RTU/TCP: For integration with automation and control systems.
    • CAN Bus: For robust communication with marine engines and subsystems.
  5. Rugged Design:
    • IP65/IP66-rated enclosure for protection against water, dust, and salt spray.
    • Resistant to vibrations, shocks, and temperature extremes typical in marine environments.
    • Designed for operation in harsh offshore and shipboard conditions.
  6. Real-Time Monitoring:
    • Displays critical parameters such as engine RPM, oil pressure, water temperature, and fuel consumption.
    • Supports alarms and warnings for abnormal conditions, improving safety and reliability.
  7. Power Efficiency:
    • Operates on low power, typically 24V DC, to align with standard marine power systems.
  8. Compliance and Certification:
    • Meets international marine safety and performance standards such as IEC 60945.
    • Approved for use in commercial vessels, yachts, and offshore platforms.

Technical Specifications

Display:

  • Type: Color LCD, backlit.
  • Size: 10-inch or larger (depending on model variant).
  • Resolution: 800 x 480 pixels or higher.
  • Brightness: Adjustable, suitable for outdoor and indoor use.

Inputs and Outputs:

  • Analog Inputs: For connecting temperature, pressure, and flow sensors.
  • Digital Inputs/Outputs: For alarms, switches, and status signals.
  • Relay Outputs: Configurable for control of external devices.

Communication:

  • Protocols:
    • NMEA 0183/NMEA 2000 for marine navigation and data sharing.
    • Modbus RTU/TCP for integration with control systems.
    • CAN Bus for engine and equipment communication.
  • Ports: Ethernet, RS-232, RS-485, and USB for connectivity.

Power Requirements:

  • Voltage: 12-24V DC nominal (marine standard).
  • Power Consumption: Typically less than 15W.

Environmental:

  • Operating Temperature: -20°C to +70°C.
  • Storage Temperature: -40°C to +85°C.
  • Humidity: 5% to 95% (non-condensing).
  • Ingress Protection: IP65/IP66 (dust and water-resistant).

Dimensions:

  • Physical Size: Varies by model, approximately 300mm x 200mm x 50mm.
  • Weight: Less than 2.5 kg.

 

Honeywell 51402497-100 TDC 3000 Keyboard, Control Module

IAI PCON-C 20PI-CC-0-0-ABU Control Module with 1 Year Warranty

Yokogawa 80SFM-E02430-2B6 Process Control Module

 

HONEYWELL 51401497-100 FW25-92 module

The Honeywell 51401497-100 FW25-92 is part of Honeywell’s FW25 series, which is designed for gas and steam turbine control systems. The 51401497-100 FW25-92 module typically refers to a Turbine Control Module (TCM) or a Process Control Module (PCM), depending on the specific system. These modules are used to monitor and control turbine performance in power generation applications.

Here’s a detailed breakdown of the Honeywell 51401497-100 FW25-92 module:


Product Overview

The Honeywell 51401497-100 FW25-92 is part of the Honeywell FW25 family, which includes controllers used for turbine control, including gas turbines and steam turbines, in various industrial applications such as power plants and oil & gas facilities. The FW25 series is part of the Turbine Control System (TCS), which is designed to provide reliable control and protection for turbine systems.

The FW25-92 module is typically a Turbine Control Module (TCM) that interfaces with other components of the turbine control system to manage and optimize turbine performance. These controllers are critical for ensuring the efficient and safe operation of turbines.

  1. Turbine Control and Protection:
    • Designed to support turbine control functions, including speed regulation, temperature monitoring, pressure control, and vibration monitoring.
    • Supports overspeed protection, lube oil control, and cooling system control, ensuring the turbine operates within safe parameters.
    • Provides alarm handling for operational anomalies, notifying operators of any potential issues that could lead to damage or failure.
  2. Advanced Control Algorithms:
    • Dynamic Response: Features advanced algorithms for real-time control and dynamic response to changing operating conditions, which is essential for turbine performance optimization.
    • Proportional-Integral-Derivative (PID) Control: Implements PID controllers to maintain the desired turbine speed, pressure, and temperature within preset limits.
    • Startup and Shutdown Sequences: Automates and optimizes the turbine’s startup and shutdown procedures, enhancing reliability and reducing wear on components.
  3. Flexible I/O Support:
    • Analog I/O: Includes inputs for turbine sensors (temperature, pressure, vibration, speed, etc.) and outputs for controlling actuators, valves, and other devices.
    • Digital I/O: Provides support for digital signals used in turbine control systems, such as alarms, status indicators, and digital sensors.
    • Relay Outputs: Configurable relay outputs for managing external devices, such as alarms or automatic shutdown actions.
  4. Diagnostics and Troubleshooting:
    • Fault Detection: Monitors critical turbine parameters (e.g., speed, temperature, vibration, and pressure) and generates alarms if any parameter exceeds predefined thresholds.
    • Diagnostic Monitoring: Built-in diagnostics to assist with fault detection and troubleshooting, helping prevent downtime by providing real-time feedback on system health and performance.
    • Event Logging: Logs significant events and fault conditions, making it easier to identify trends and perform root cause analysis.
  5. High Availability and Reliability:
    • Redundant Configuration: Supports redundancy for critical components (such as communication links and control loops), ensuring continuous operation and reducing the risk of failure.
    • Fault-Tolerant Design: Designed to be fault-tolerant, with built-in protection against system failures to minimize downtime and improve overall reliability.
  6. Human-Machine Interface (HMI):
    • The FW25-92 module can interface with HMI systems, providing a user-friendly interface for operators to monitor and control turbine operations.
    • Operator Control: Allows operators to manually control turbine setpoints, start/stop sequences, and safety overrides as needed.

Technical Specifications

  • Power Supply:
    • Input Voltage: Typically 24V DC (depending on configuration).
    • Power Consumption: Low power consumption, typically under 50W.
  • Operating Temperature:
    • Range: -40°C to +85°C (for industrial applications).
  • Inputs/Outputs:
    • Analog Inputs: 4-8 analog inputs for sensors like temperature, pressure, and vibration.
    • Digital Inputs/Outputs: Supports digital inputs/outputs for sensors and actuators.
    • Relay Outputs: Configurable relay outputs for controlling machinery or signaling alarms.

Honeywell 51401497-100 Power Supply, Industrial Control, Electrical, Power Electronics

Honeywell FS-TDOL-07120 Digital Output FTA, Loop Monitoring Module (120 V, 7 Channels)

Honeywell FS-IOBUS-CPIO4 Automation Components

Honeywell 8C-TAIXA1 51405047-175 Analog Input Module

 

ABB AC800M PM891 3BSE053240R1 Controller module

 

The ABB PM891 is a high-performance power meter designed for advanced energy management, monitoring, and control in industrial, commercial, and utility applications. Below are the key parameters and features of the ABB PM891, in English:


Product Overview

The ABB PM891 is a part of the ABB Power Meter range, offering precision measurement of electrical parameters and the ability to communicate with various monitoring and control systems. It is typically used for energy monitoring, quality analysis, and efficiency optimization of electrical systems.


Key Features

  1. Display and Interface:
    • Large, high-resolution LCD display.
    • User-friendly interface for easy configuration and data access.
    • Programmable display for customizable readouts (e.g., individual parameters or combinations of parameters).
  2. Electrical Parameters Measured:
    • Voltage: Line-to-Line and Line-to-Neutral.
    • Current: Per-phase and neutral current.
    • Frequency: Power supply frequency.
    • Active Power (P): kW (kilowatts).
    • Reactive Power (Q): kVAR (kilovolt-amperes reactive).
    • Apparent Power (S): kVA (kilovolt-amperes).
    • Power Factor: Per-phase and total power factor.
    • Energy Consumption: Active, Reactive, and Apparent Energy (kWh, kVARh, kVAh).
    • Total Harmonic Distortion (THD): For voltage and current.
    • Peak Demand: Maximum demand over a specific period.
    • Current and Voltage Imbalance: Measurement of phase imbalances.
    • Phase Angle: For individual phases.
  3. Measurement Accuracy:
    • Voltage: ±0.5% (or better).
    • Current: ±0.5% (or better).
    • Active Power: ±1% (or better).
    • Energy: Class 1 according to IEC 62053-22 for active energy.
  4. Communication:
    • Modbus RTU: RS-485 communication protocol for remote data retrieval and integration into SCADA or building management systems.
    • Ethernet: Optional Modbus TCP for network communication.
    • BACnet: Optional BACnet/IP for building automation systems.
    • Communication protocols allow for integration with energy management software and automation systems.
    • Data Logging: Capability to log energy data for up to 12 months.

 

 

 

ABB PM891K01 Processor Unit for Advanced Industrial Automation

ABB PM891K01 Compact Product Suite Hardware Selector – Industrial Automation Solution

 

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