+86 18030182217
+86 18030182217
sandydcsplc@gmail.com
Description
Product Overview
The ABB IMMFP12 is a high-performance multifunctional processor module designed for ABB’s Bailey Infi 90 distributed control system (DCS) and Symphony Plus platforms. Engineered to serve as the computational core of automation systems, the IMMFP12 integrates advanced processing capabilities with robust communication protocols, making it ideal for mission-critical applications in power generation, oil & gas, and manufacturing.
Featuring a 32-bit RISC processor and 16 MB RAM, the ABB IMMFP12 delivers real-time control and data processing for complex automation tasks. It supports up to 40 kbaud data transfer rates over the Infi 90 proprietary protocol, enabling seamless integration with I/O modules (e.g., IMDS014 digital output modules and IMFEC12 analog input modules). The module’s hot-swappable design allows for maintenance without system shutdown, while its dual redundancy support ensures continuous operation in critical environments.
As a cornerstone of ABB’s Harmony control architecture, the IMMFP12 executes control logic, manages communication networks, and interfaces with human-machine interfaces (HMIs). Its programmable firmware supports custom algorithms and protocol conversions, making it adaptable to diverse industrial requirements. With an operating temperature range of -20°C to +60°C and IP20 protection, the module withstands harsh industrial conditions while maintaining reliable performance.
Technical Specifications
| Parameter Name | Parameter Value |
|---|---|
| Product Model | IMMFP12 |
| Manufacturer | ABB |
| Product Type | Multifunctional Processor Module |
| Processor | 32-bit RISC, 20 MHz clock speed |
| Memory | 16 MB RAM, 8 MB flash storage |
| Communication Protocols | Infi 90 proprietary, Modbus RTU, RS-485 |
| Data Transfer Rate | Up to 40 kbaud |
| I/O Capacity | Supports up to 256 I/O channels via expansion modules |
| Power Supply | 24 V DC (±10%), redundant inputs supported |
| Power Consumption | 12 W (typical), 15 W (max) |
| Operating Temperature | -20°C to +60°C |
| Humidity | 5–95% non-condensing |
| Physical Dimensions | 30.48 cm (H) × 17.78 cm (W) × 12.7 cm (D) |
| Weight | 0.9 kg |
| Certifications | CE, UL, ROHS |
Main Features and Advantages
High-Performance Processing:
The ABB IMMFP12 leverages its 32-bit RISC processor to execute control algorithms with sub-millisecond latency, making it suitable for real-time applications like turbine speed control and process loop regulation. Its dual-port RAM enables simultaneous data processing and communication, optimizing system responsiveness.
The ABB IMMFP12 leverages its 32-bit RISC processor to execute control algorithms with sub-millisecond latency, making it suitable for real-time applications like turbine speed control and process loop regulation. Its dual-port RAM enables simultaneous data processing and communication, optimizing system responsiveness.
Flexible Communication Capabilities:
Equipped with multiple communication interfaces, the IMMFP12 supports protocol conversion between Infi 90 networks and third-party systems (e.g., Modbus RTU devices). It can manage up to 8 communication channels simultaneously, facilitating integration with SCADA systems, HMIs, and remote monitoring platforms.
Equipped with multiple communication interfaces, the IMMFP12 supports protocol conversion between Infi 90 networks and third-party systems (e.g., Modbus RTU devices). It can manage up to 8 communication channels simultaneously, facilitating integration with SCADA systems, HMIs, and remote monitoring platforms.
Redundancy and Reliability:
The module supports hot-swappable redundant configurations, where two IMMFP12 units operate in parallel for failover protection. This design eliminates single points of failure, ensuring continuous operation in critical processes like power plant turbine control or chemical reactor management.
The module supports hot-swappable redundant configurations, where two IMMFP12 units operate in parallel for failover protection. This design eliminates single points of failure, ensuring continuous operation in critical processes like power plant turbine control or chemical reactor management.
Easy Integration and Programming:
Using ABB’s Control Builder M software, engineers can remotely configure the IMMFP12 for custom control logic, firmware updates, and diagnostic monitoring. The module’s standardized programming interfaces (e.g., IEC 61131-3 languages) simplify integration into existing automation ecosystems.
Using ABB’s Control Builder M software, engineers can remotely configure the IMMFP12 for custom control logic, firmware updates, and diagnostic monitoring. The module’s standardized programming interfaces (e.g., IEC 61131-3 languages) simplify integration into existing automation ecosystems.
Rugged Industrial Design:
Built to withstand harsh environments, the IMMFP12 features a vibration-resistant chassis and wide temperature tolerance (-20°C to +60°C). Its EMI/EMC compliance ensures stable operation near high-voltage equipment, while the IP20-rated enclosure protects against dust and debris.
Built to withstand harsh environments, the IMMFP12 features a vibration-resistant chassis and wide temperature tolerance (-20°C to +60°C). Its EMI/EMC compliance ensures stable operation near high-voltage equipment, while the IP20-rated enclosure protects against dust and debris.
Application Areas
Power Generation:
The ABB IMMFP12 is critical for managing steam turbine governors, generator excitation systems, and grid synchronization in power plants. Its real-time processing capabilities enable precise control of boiler feedwater pumps and cooling systems, optimizing energy efficiency and reducing emissions.
The ABB IMMFP12 is critical for managing steam turbine governors, generator excitation systems, and grid synchronization in power plants. Its real-time processing capabilities enable precise control of boiler feedwater pumps and cooling systems, optimizing energy efficiency and reducing emissions.
Oil & Gas:
In refineries and offshore platforms, the module controls complex processes like distillation column operations, pipeline pressure regulation, and safety interlocks. Its redundancy features ensure uninterrupted operation in hazardous environments, while high-speed communication supports integration with emergency shutdown (ESD) systems.
In refineries and offshore platforms, the module controls complex processes like distillation column operations, pipeline pressure regulation, and safety interlocks. Its redundancy features ensure uninterrupted operation in hazardous environments, while high-speed communication supports integration with emergency shutdown (ESD) systems.
Manufacturing Automation:
The IMMFP12 powers robotic assembly lines, conveyor systems, and quality control processes in automotive and electronics manufacturing. Its ability to manage multiple I/O channels allows for seamless coordination of sensors, actuators, and vision systems, improving production efficiency and product quality.
The IMMFP12 powers robotic assembly lines, conveyor systems, and quality control processes in automotive and electronics manufacturing. Its ability to manage multiple I/O channels allows for seamless coordination of sensors, actuators, and vision systems, improving production efficiency and product quality.
Process Industries:
For chemical and pharmaceutical plants, the module regulates reactor temperatures, flow rates, and batch processing sequences. Its precise control capabilities help maintain product consistency and compliance with regulatory standards, while remote diagnostics reduce maintenance costs.
For chemical and pharmaceutical plants, the module regulates reactor temperatures, flow rates, and batch processing sequences. Its precise control capabilities help maintain product consistency and compliance with regulatory standards, while remote diagnostics reduce maintenance costs.
Water and Wastewater Treatment:
The IMMFP12 optimizes water treatment processes by controlling pump speeds, chemical dosing systems, and clarifier mechanisms. Its reliability ensures continuous operation in water distribution networks and wastewater treatment plants, supporting environmental compliance and resource conservation.
The IMMFP12 optimizes water treatment processes by controlling pump speeds, chemical dosing systems, and clarifier mechanisms. Its reliability ensures continuous operation in water distribution networks and wastewater treatment plants, supporting environmental compliance and resource conservation.
Related Products
- ABB IMMFP11: A predecessor model with similar functionality but lower memory capacity, suitable for smaller-scale applications.
- ABB IMDS014: A 16-channel digital output module that pairs with the IMMFP12 for discrete control in automation systems.
- ABB IMFEC12: A high-level analog input module that interfaces with the IMMFP12 for precise signal acquisition in process monitoring.
- ABB CIO-100: A control I/O block that expands the IMMFP12’s connectivity, supporting daisy-chained configurations for large-scale systems.
- ABB NDCS03: A digital control station that integrates with the IMMFP12 for operator interface and remote monitoring.
- ABB IMHSS03: A hydraulic servo slave module that works with the IMMFP12 in turbine and heavy machinery control applications.
Installation and Maintenance
Installation Preparations:
Before installing the ABB IMMFP12, verify the power supply meets 24 V DC ±10% requirements and ensure the mounting panel is grounded. Use shielded cables for communication connections to minimize EMI, and secure the module to a DIN rail using torque screws (1.5–2.5 N·m) to withstand vibration. For redundant setups, connect two IMMFP12 units via dedicated redundancy cables as per ABB’s guidelines.
Before installing the ABB IMMFP12, verify the power supply meets 24 V DC ±10% requirements and ensure the mounting panel is grounded. Use shielded cables for communication connections to minimize EMI, and secure the module to a DIN rail using torque screws (1.5–2.5 N·m) to withstand vibration. For redundant setups, connect two IMMFP12 units via dedicated redundancy cables as per ABB’s guidelines.
Maintenance Recommendations:
Regularly inspect the module’s LED indicators for power, communication, and fault status. Use ABB’s Control Builder M software to monitor processor load and update firmware quarterly. Clean the module’s vents with compressed air every six months to prevent dust accumulation. For preventive maintenance, replace electrolytic capacitors every 5–7 years to ensure long-term reliability. In the event of a fault, refer to the module’s diagnostic display to identify issues and consult ABB’s technical support for replacement procedures.
Regularly inspect the module’s LED indicators for power, communication, and fault status. Use ABB’s Control Builder M software to monitor processor load and update firmware quarterly. Clean the module’s vents with compressed air every six months to prevent dust accumulation. For preventive maintenance, replace electrolytic capacitors every 5–7 years to ensure long-term reliability. In the event of a fault, refer to the module’s diagnostic display to identify issues and consult ABB’s technical support for replacement procedures.
Product Guarantee
ABB warrants the IMMFP12 against defects in materials and workmanship for 1 year from purchase. This includes free repair or replacement of faulty components, supported by ABB’s global network of certified technicians. Customers receive 24/7 technical support for installation, configuration, and troubleshooting, with remote assistance available via secure VPN. ABB’s Extended Service Agreement offers proactive maintenance, firmware updates, and priority spare parts delivery for up to 5 years, ensuring continuous system reliability. The IMMFP12 complies with CE, UL, and ROHS standards, providing peace of mind in safety-critical applications. ABB’s commitment to industrial cybersecurity ensures ongoing software updates to address emerging threats and maintain compliance with evolving industry requirements.
HS:7326909000
Contact info
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