The CPCI-680 functions as the processing core within CompactPCI-based systems, leveraging a powerful multi-core processor to handle complex computational tasks while maintaining compatibility with industry-standard CPCI backplane architectures. Its design focuses on balancing high-speed data throughput with low latency, enabling it to process inputs from sensors, actuators, and other I/O modules in real time—critical for applications where split-second decision-making impacts operational outcomes. The module communicates seamlessly with other CPCI components via the backplane, supporting data transfer rates that keep pace with high-bandwidth sensors and control systems.
Model Number CPCI-680
Brand MOTOROLA
Type CompactPCI Processing Module
Input Voltage +5V DC, +12V DC (CPCI backplane)
Operating Temp Range -40°C to 85°C (-40°F to 185°F)
Mounting Style 3U CompactPCI Chassis Mount
Dimensions 160mm x 100mm (6.30″ x 3.94″)
Weight 450g (15.87 oz)
Interface/Bus 32-bit/64-bit CPCI Bus, PCI Express
Compliance MIL-STD-810G, CE, RoHS
Supported Protocols TCP/IP, UDP, Modbus TCP/IP (via software)
Typical Power Draw 25W
The CPCI-680 functions as the processing core within CompactPCI-based systems, leveraging a powerful multi-core processor to handle complex computational tasks while maintaining compatibility with industry-standard CPCI backplane architectures. Its design focuses on balancing high-speed data throughput with low latency, enabling it to process inputs from sensors, actuators, and other I/O modules in real time—critical for applications where split-second decision-making impacts operational outcomes. The module communicates seamlessly with other CPCI components via the backplane, supporting data transfer rates that keep pace with high-bandwidth sensors and control systems.
CPCI-680
What distinguishes the CPCI-680 is its integration of advanced thermal management and shock-resistant components, allowing it to operate reliably even in environments where traditional computing hardware would struggle. It also supports a range of operating systems optimized for industrial use, including real-time operating systems (RTOS) and Linux distributions, ensuring compatibility with existing software ecosystems and reducing the need for extensive reengineering during system integration.
CPCI-680
Technical specifications:
Model Number CPCI-680
Brand MOTOROLA
Type CompactPCI Processing Module
Input Voltage +5V DC, +12V DC (CPCI backplane)
Operating Temp Range -40°C to 85°C (-40°F to 185°F)
Mounting Style 3U CompactPCI Chassis Mount
Dimensions 160mm x 100mm (6.30″ x 3.94″)
Weight 450g (15.87 oz)
Interface/Bus 32-bit/64-bit CPCI Bus, PCI Express
Compliance MIL-STD-810G, CE, RoHS
Supported Protocols TCP/IP, UDP, Modbus TCP/IP (via software)
Typical Power Draw 25W
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CPCI-680
Main features and advantages:
Opting for the CPCI-680 delivers tangible benefits that extend beyond raw processing power. Engineered for extreme environments, its ruggedized construction—including conformal coating and vibration-resistant connectors—ensures long-term performance in applications exposed to shock, humidity, and temperature extremes, reducing the risk of unplanned downtime and lowering lifecycle maintenance costs. The module’s multi-core architecture enables parallel processing of tasks, allowing it to handle data acquisition, control algorithms, and communication protocols simultaneously without compromising responsiveness. This capability translates to more efficient system operation, as the CPCI-680 eliminates bottlenecks that might otherwise slow down critical processes in industrial automation setups.
Additionally, the CPCI-680 simplifies system scalability. Its compatibility with standard CPCI chassis and modules means engineers can easily add I/O cards, communication interfaces, or storage modules as needs evolve, without overhauling the entire processing infrastructure. This modularity reduces upfront investment by allowing incremental upgrades, while the module’s long-term availability—designed to support extended industrial lifecycles—ensures that replacement parts and software updates remain accessible for years, protecting against obsolescence in long-running projects.
The CPCI-680 thrives in applications where computing performance must coexist with harsh operating conditions. In aerospace and defense, it serves as the processing hub for flight test instrumentation and ground control systems, where it must withstand extreme temperatures and vibration during operation. Its ability to process high-velocity sensor data in real time ensures that critical parameters like engine performance and structural integrity are monitored continuously, supporting both safety and mission success.
CPCI-680
Application areas:
The CPCI-680 thrives in applications where computing performance must coexist with harsh operating conditions. In aerospace and defense, it serves as the processing hub for flight test instrumentation and ground control systems, where it must withstand extreme temperatures and vibration during operation. Its ability to process high-velocity sensor data in real time ensures that critical parameters like engine performance and structural integrity are monitored continuously, supporting both safety and mission success.
In energy production, particularly in oil and gas exploration, the CPCI-680 is deployed in ruggedized data acquisition systems, processing readings from downhole sensors and transmitting actionable insights to surface control centers. Here, its resistance to shock and temperature fluctuations ensures reliable operation in remote, harsh environments where maintenance access is limited. Similarly, in industrial manufacturing, the CPCI-680 powers real-time quality control systems, analyzing data from vision sensors and measurement tools to adjust production parameters on the fly—directly improving product consistency and reducing waste in high-speed manufacturing lines.
CPCI-680
Related products:
CPCI-680E – Enhanced version with extended memory capacity for data-intensive applications.
CPCI-670 – Lower-power variant for battery-operated or energy-constrained CPCI systems.
CPCI-690 – 6U form factor model with expanded I/O capabilities for larger-scale deployments.
CPCI-680S – Single-core version optimized for low-latency, single-task industrial control.
CPCI-680M – Military-grade variant with enhanced EMI shielding and extended temperature range.
CPCI-780 – Next-generation model with faster processor and PCIe Gen 3 support.
CPCI-680I – Integrated version with built-in isolated I/O for hazardous environment compliance.
CPCI-BP10 – CPCI backplane adapter for seamless integration of the CPCI-680 into legacy systems.
Installation and maintenance:
Before installing the CPCI-680, confirm that the target 3U CPCI chassis supports the module’s power requirements (+5V and +12V) and has compatible backplane firmware to enable full communication with other CPCI components. Check that the chassis provides adequate cooling—while the module includes thermal management features, ensuring proper airflow prevents overheating during peak processing loads. Verify that the host system’s operating system is compatible with the module’s hardware; [Manufacturer] recommends pre-installing the latest device drivers and firmware updates to avoid compatibility issues during initial boot.
For ongoing maintenance, schedule monthly checks of the module’s status indicators—located on the front panel—to confirm proper power and bus communication. Inspect the CPCI connectors quarterly for signs of corrosion or wear, especially in humid or dusty environments, as degraded connections can cause data transmission errors. Every six months, run diagnostic software provided by [Manufacturer] to validate processor performance and memory integrity. Avoid exposing the CPCI-680 to unnecessary physical shock during handling, and ensure that any field service is performed with the chassis powered down to prevent damage to both the module and backplane.
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