| Quantity: | |
|---|---|
The AB-3300 is a next-generation, high-availability automation controller engineered for mission-critical process, batch, and hybrid applications where maximum uptime, advanced regulatory control, and seamless system integration are paramount. It represents the evolution of the PAC platform for complex industrial environments.
Technical Parameters
| Model | Power (kW) | Rotating speed (rpm) | Air Delivery (m3/min) | Shaft power (kW) | Specific power (kW/m'/min) | S.F. | Dimension(mm) | Weight(kg) |
| AB-3300 | 315 | 2950 | 50 | 323.4 | 6.4 | 1.03 | 1164*748*535 | 975 |
Enhanced High-Availability Architecture: Supports redundant configurations (processor, power supply, network) with fast, bumpless cutover (<100ms) to ensure continuous operation without disruption in case of a component failure.
Dual/Quad Core Processing Power: Features a powerful multi-core processor with segregated cores explicitly dedicated to real-time control, batch execution, and communication tasks, enabling deterministic performance under heavy load.
Integrated Batch & Recipe Management: Contains native, ISA-88 compliant batch software for managing complex recipes, phases, and unit operations within the controller itself, reducing dependency on external SCADA/software.
Advanced Process Control Library: Includes a comprehensive suite of pre-tested, function block-based control algorithms (e.g., PID with advanced tuning, ratio control, cascade, predictive function blocks) for precise regulation of pressure, flow, temperature, and level.
Expanded Memory & Data Logging: Offers significantly larger user and tag memory compared to mid-tier controllers, with integrated high-speed data logging capabilities for historizing process variables and events directly to onboard storage or network drives.
Cyber-Security Hardened: Built with enhanced security features, including signed firmware, secure boot, role-based access control, and integrated network threat detection, meeting stringent industrial security standards (e.g., IEC 62443).
Unified Control Platform: Maintains seamless integration with the wider plant ecosystem (drives, safety controllers, remote I/O, HMIs) via EtherNet/IP and other open protocols, ensuring engineering consistency.
Maximized Production Uptime: Redundant design and fast fault tolerance minimize unplanned shutdowns, protecting revenue and product in continuous process operations.
Superior Process Quality & Consistency: Advanced control algorithms and precise batch execution reduce variability, improve yield, and ensure strict adherence to product specifications.
Reduced Engineering Complexity: The unified development environment and extensive, pre-built APC and batch libraries shorten project development and validation time significantly.
Inherent Scalability & Future-Proofing: Easily scales from a single unit to a plant-wide distributed control architecture, accommodating future expansion without platform changes.
Lower Lifecycle Costs: Despite a higher initial investment, the reduction in downtime, improved efficiency, and lower maintenance requirements lead to a superior return on investment (ROI) in critical applications.
Enhanced Data Accessibility: Integrated data logging and open connectivity enable better operational intelligence, predictive maintenance, and smoother integration with Manufacturing Execution Systems (MES).
Process Industries:
Oil & Gas: Continuous catalytic reforming, fractionation control, gas processing, pipeline compressor control.
Chemical: Batch and continuous reactors, distillation columns, precise ingredient mixing and dosing.
Pharmaceutical: FDA-compliant batch manufacturing, clean-in-place (CIP) systems, formulation and filling lines.
Food & Beverage: Large-scale batch processing (breweries, dairy), fermentation control, blending and cooking systems.
Hybrid & Discrete Manufacturing:
Primary Metals: Continuous casting lines, furnace temperature regulation, rolling mill control.
Water/Wastewater: Plant-wide control of filtration, chemical treatment, pumping stations, and distribution networks.
Power & Energy: Boiler control, turbine auxiliary systems, renewable energy plant management.
The AB-3300 is a next-generation, high-availability automation controller engineered for mission-critical process, batch, and hybrid applications where maximum uptime, advanced regulatory control, and seamless system integration are paramount. It represents the evolution of the PAC platform for complex industrial environments.
Technical Parameters
| Model | Power (kW) | Rotating speed (rpm) | Air Delivery (m3/min) | Shaft power (kW) | Specific power (kW/m'/min) | S.F. | Dimension(mm) | Weight(kg) |
| AB-3300 | 315 | 2950 | 50 | 323.4 | 6.4 | 1.03 | 1164*748*535 | 975 |
Enhanced High-Availability Architecture: Supports redundant configurations (processor, power supply, network) with fast, bumpless cutover (<100ms) to ensure continuous operation without disruption in case of a component failure.
Dual/Quad Core Processing Power: Features a powerful multi-core processor with segregated cores explicitly dedicated to real-time control, batch execution, and communication tasks, enabling deterministic performance under heavy load.
Integrated Batch & Recipe Management: Contains native, ISA-88 compliant batch software for managing complex recipes, phases, and unit operations within the controller itself, reducing dependency on external SCADA/software.
Advanced Process Control Library: Includes a comprehensive suite of pre-tested, function block-based control algorithms (e.g., PID with advanced tuning, ratio control, cascade, predictive function blocks) for precise regulation of pressure, flow, temperature, and level.
Expanded Memory & Data Logging: Offers significantly larger user and tag memory compared to mid-tier controllers, with integrated high-speed data logging capabilities for historizing process variables and events directly to onboard storage or network drives.
Cyber-Security Hardened: Built with enhanced security features, including signed firmware, secure boot, role-based access control, and integrated network threat detection, meeting stringent industrial security standards (e.g., IEC 62443).
Unified Control Platform: Maintains seamless integration with the wider plant ecosystem (drives, safety controllers, remote I/O, HMIs) via EtherNet/IP and other open protocols, ensuring engineering consistency.
Maximized Production Uptime: Redundant design and fast fault tolerance minimize unplanned shutdowns, protecting revenue and product in continuous process operations.
Superior Process Quality & Consistency: Advanced control algorithms and precise batch execution reduce variability, improve yield, and ensure strict adherence to product specifications.
Reduced Engineering Complexity: The unified development environment and extensive, pre-built APC and batch libraries shorten project development and validation time significantly.
Inherent Scalability & Future-Proofing: Easily scales from a single unit to a plant-wide distributed control architecture, accommodating future expansion without platform changes.
Lower Lifecycle Costs: Despite a higher initial investment, the reduction in downtime, improved efficiency, and lower maintenance requirements lead to a superior return on investment (ROI) in critical applications.
Enhanced Data Accessibility: Integrated data logging and open connectivity enable better operational intelligence, predictive maintenance, and smoother integration with Manufacturing Execution Systems (MES).
Process Industries:
Oil & Gas: Continuous catalytic reforming, fractionation control, gas processing, pipeline compressor control.
Chemical: Batch and continuous reactors, distillation columns, precise ingredient mixing and dosing.
Pharmaceutical: FDA-compliant batch manufacturing, clean-in-place (CIP) systems, formulation and filling lines.
Food & Beverage: Large-scale batch processing (breweries, dairy), fermentation control, blending and cooking systems.
Hybrid & Discrete Manufacturing:
Primary Metals: Continuous casting lines, furnace temperature regulation, rolling mill control.
Water/Wastewater: Plant-wide control of filtration, chemical treatment, pumping stations, and distribution networks.
Power & Energy: Boiler control, turbine auxiliary systems, renewable energy plant management.
