中文版
Phone: 
Email: 
WhatsApp: Description
Motorola IPMC761 Integrated Processor Module
Product Overview:Motorola IPMC761
The Motorola IPMC761 is a high-performance Integrated Processor Module designed for industrial automation and control systems, delivering robust computing power and versatile connectivity in harsh industrial environments. As part of Motorola’s MVME Series of embedded computing solutions, the IPMC761 serves as the core processing unit in PLCs, distributed control systems (DCS), and machine automation platforms. Engineered to handle real-time data processing, complex logic control, and high-speed communication, this module ensures seamless integration with field devices, sensors, and higher-level supervisory systems, making it indispensable for industries requiring reliable and scalable automation solutions.
Featuring a 32-bit PowerPC processor and up to 256 MB of DDR2 memory, the Motorola IPMC761 excels in executing advanced control algorithms, motion control tasks, and data logging applications. Its dual Ethernet ports (10/100 Mbps) and support for protocols like Modbus TCP, EtherNet/IP, and Profibus DP enable flexible communication with programmable logic controllers, human-machine interfaces (HMIs), and SCADA systems. The module’s rugged design, with a wide operating temperature range (-40°C to +85°C) and resistance to vibration and electromagnetic interference, ensures reliable performance in manufacturing plants, power generation facilities, and transportation infrastructure.
In automation ecosystems, the IPMC761 acts as the central nervous system, coordinating data flow between field-level devices and enterprise-level software. Its support for real-time operating systems (RTOS) and deterministic scheduling ensures precise control over time-critical processes, such as conveyor belt synchronization, robotic arm guidance, and energy management systems. By combining high computational power with industrial-grade durability, the Motorola IPMC761 reduces system complexity, minimizes downtime, and enhances overall operational efficiency.
Technical Specifications:Motorola IPMC761
| Parameter Name | Parameter Value |
|---|---|
| Product Model | IPMC761 |
| Manufacturer | Motorola |
| Product Type | Integrated Processor Module |
| Processor | 32-bit PowerPC 405CR, up to 400 MHz |
| Memory | 256 MB DDR2 SDRAM, 64 MB NOR Flash |
| Communication Interfaces | 2x 10/100 Mbps Ethernet, 2x RS-232/485, USB 2.0 |
| Expansion Slots | PCI Express Mini Card slot |
| Physical Dimensions | 146 mm (L) × 101 mm (W) × 36 mm (H) |
| Weight | 0.45 kg |
| Operating Temperature | -40°C to +85°C |
| Power Supply | 12–24 V DC (±10%), 500 mA typical |
| Certifications | CE, FCC Class A, IEC 61000-6-2/6-4 |
IPMC761
Key Features and Advantages:Motorola IPMC761
High-Performance Processing: The IPMC761’s PowerPC processor and ample memory enable efficient execution of complex control algorithms, supporting real-time data processing and multitasking in demanding applications. This capability is critical for high-speed manufacturing lines or power grid management systems requiring rapid response times.
Versatile Connectivity: With dual Ethernet ports and multiple serial interfaces, the module facilitates seamless integration with diverse devices and protocols. Its support for industrial communication standards ensures compatibility with legacy systems and modern automation platforms, reducing the need for custom interfaces.
Rugged Industrial Design: Built to withstand extreme temperatures, shock, and vibration, the IPMC761 is ideal for harsh environments such as oil refineries, mining sites, and outdoor transportation hubs. Its conformal coating and robust enclosure protect against dust, moisture, and corrosive elements, ensuring long-term reliability.
Scalable Architecture: The PCI Express Mini Card slot allows for hardware expansion, enabling users to add wireless connectivity, additional I/O channels, or specialized communication modules as needed. This scalability future-proofs systems and accommodates evolving operational requirements.
Energy Efficiency: Designed with low power consumption in mind, the IPMC761 operates efficiently on 12–24 V DC, reducing energy costs and heat generation. This feature is particularly beneficial in distributed systems or battery-powered applications.
Easy Integration: The module’s plug-and-play design and support for standard programming languages (e.g., ladder logic, C++) simplify deployment and maintenance. Motorola’s comprehensive software tools further streamline configuration and diagnostics, minimizing downtime during system setup or upgrades.
IPMC761
Application Areas:Motorola IPMC761
The Motorola IPMC761 is widely deployed in industries that demand reliable, high-performance control systems:
- Manufacturing: Serving as the control core in CNC machines, robotic assembly lines, and packaging systems, the IPMC761 ensures precise coordination of mechanical and electrical components. It monitors real-time production data, optimizes cycle times, and triggers alarms for quality control or equipment faults.
- Power Generation: Managing power distribution networks, monitoring generator performance, and controlling renewable energy systems (e.g., wind turbines, solar inverters). The module’s ability to handle deterministic communication is critical for maintaining grid stability and compliance with regulatory standards.
- Transportation: Controlling tunnel ventilation systems, railway signaling equipment, and intelligent traffic management systems. Its rugged design ensures reliable operation in vibration-prone environments like train depots or highway infrastructure.
- Oil & Gas: Overseeing pump and valve operations in pipelines, monitoring safety interlocks in refineries, and managing remote terminal units (RTUs) in offshore platforms. The IPMC761’s resistance to harsh conditions makes it suitable for upstream, midstream, and downstream applications.
Specific use cases include:
- Machine Automation: Controlling robotic arms in automotive manufacturing plants, ensuring precise motion control and collision avoidance.
- Process Control: Managing chemical reactor parameters in pharmaceutical production, ensuring consistent product quality through real-time data analysis.
- Smart Grid Management: Coordinating energy storage systems and microgrids, optimizing power flow and reducing reliance on traditional grids.
IPMC761
Related Products:Motorola IPMC761
- Motorola IPMC750: A lower-cost variant with a 266 MHz processor and 128 MB memory, suitable for basic control applications in small-scale systems.
- Motorola IPMC760: Features a 667 MHz processor and 512 MB memory, offering enhanced performance for complex simulations or high-speed data acquisition.
- Motorola MVME6100: A compact single-board computer (SBC) with similar connectivity, designed for space-constrained applications like medical devices or embedded control systems.
- Motorola IPMC780: Includes built-in Wi-Fi and Bluetooth, ideal for wireless sensor networks or remote monitoring applications.
- Motorola MVME2434: A legacy SBC compatible with older Motorola systems, serving as a replacement or upgrade path for vintage automation setups.
- Motorola I/O Modules (e.g., MVME7100): Complementary I/O expansion modules that interface with the IPMC761 to add analog/digital inputs/outputs for the comprehensive control system.
- Motorola GPS Sync Module: Enhances the IPMC761 with precise time synchronization for applications requiring nanosecond-level accuracy, such as power substation automation.
- Motorola Industrial Ethernet Switches: Provide network infrastructure support for multi-module setups, ensuring reliable data transmission in distributed control systems.
Installation and Maintenance:Motorola IPMC761
Installation Preparation:
Before installing the Motorola IPMC761, ensure the control cabinet is properly grounded and ventilated to prevent overheating. Verify compatibility with the power supply (12–24 V DC) and use shielded cables for Ethernet and serial connections to minimize electromagnetic interference. Mount the module securely using the provided DIN rail brackets or panel-mounting holes, leaving adequate space for airflow. Configure the module’s IP address and communication parameters using Motorola’s MVME Configuration Utility to establish connectivity with other devices.
Before installing the Motorola IPMC761, ensure the control cabinet is properly grounded and ventilated to prevent overheating. Verify compatibility with the power supply (12–24 V DC) and use shielded cables for Ethernet and serial connections to minimize electromagnetic interference. Mount the module securely using the provided DIN rail brackets or panel-mounting holes, leaving adequate space for airflow. Configure the module’s IP address and communication parameters using Motorola’s MVME Configuration Utility to establish connectivity with other devices.
Maintenance Recommendations:
- Routine Inspections: Conduct quarterly visual checks for loose connections, damaged cables, or signs of physical wear. Clean the module’s vents with compressed air to remove dust buildup, which can affect thermal performance.
- Firmware Updates: Periodically update the module’s firmware to address security patches, bug fixes, and new features, following Motorola’s official guidelines. Back up configuration files before updates to prevent data loss.
- Spare Parts Management: Maintain a spare IPMC761 module in a controlled environment (temperature: 10–30°C, humidity: 20–80% RH) to quickly replace faulty units and minimize downtime.
- Performance Monitoring: Use Motorola’s diagnostic tools to monitor processor load, memory usage, and network latency. Proactive monitoring helps identify potential issues before they escalate into system failures.
IPMC761
Product Warranty:Motorola IPMC761
Our company provides a 12-month quality warranty for the Motorola IPMC761, covering hardware defects under normal use. In the event of performance issues or functional failures, we offer prompt replacement services. For discontinued models or urgent requirements, our global supply chain network ensures rapid delivery of hard-to-find components, supporting continuous industrial operations. Our technical support team is available 24/7 to assist with installation, troubleshooting, and system optimization, ensuring seamless integration and long-term reliability.
For inquiries, contact our team via [website], WhatsApp at +86 18859254943, or email at sales@ygplc.com.
ENTERASYS A4H124-24FX Communication input interface component
TRICONEX AI3351 Gas turbine card
TRICONEX RO3451 FIM card
ABB PM866 Acquisition card
ABB PM864AK01 3BSE018161R1 Gas turbine card
ABB UFC721BE101 Safety system
ABB CI570 3BSE001440R1 Distributed control
ABB NAIO-03 Optical fiber interface board
Woodward 8237-1369 governor
Woodward 8237-1600 Input module
ABB DSDP140B 57160001-ACX Logic controller
