Motorola MVME-147SA1

Description

Detailed Parameter Table

Motorola MVME-620

Product Introduction

The **Motorola MVME-147SA1** is a high-capacity 3U VMEbus memory module designed to expand the memory capacity of VMEbus-based industrial automation and embedded control systems. As a key member of Motorola’s MVME140 series, it provides fast and reliable DRAM storage, enabling host single-board computers (SBCs) to run memory-intensive applications, process large datasets, and support multi-tasking operating systems in mission-critical industrial environments.

With a base memory capacity of 32 MB (expandable to 64 MB via optional modules) and 70 ns memory speed, the **Motorola MVME-147SA1** delivers high-performance data access for time-sensitive control tasks. Its 32-bit data bus with VMEbus burst mode support ensures efficient data transfer between the memory module and host SBC, minimizing latency. Designed to operate in -40°C to +85°C environments and featuring optional parity/ECC error handling, this module offers industrial-grade reliability and data integrity for harsh industrial settings.

Core Advantages & Technical Highlights

High-Capacity Expandable Memory: The base 32 MB Fast Page Mode DRAM (expandable to 64 MB) provides ample storage for memory-intensive legacy applications, large data logs, and multi-tasking OS environments. This scalability allows system designers to tailor memory capacity to specific application needs without replacing the entire module, protecting initial investments.

Fast Data Access & Transfer: 70 ns memory speed ensures quick data read/write operations, critical for real-time control systems that require low-latency memory access. The 32-bit VMEbus interface with burst mode support enables high-speed data transfer between the module and host SBC, reducing bottlenecks in data-intensive workflows.

Industrial-Grade Reliability: Operating from -40°C to +85°C, the **Motorola MVME-147SA1** withstands extreme temperatures, vibration, and electromagnetic interference (EMI) common in manufacturing plants, aerospace test facilities, and power generation systems. Its rugged mechanical design and high-quality DRAM components ensure long-term stable operation, minimizing unplanned downtime.

Data Integrity Features: Built-in parity check (with optional ECC upgrade) safeguards against data corruption, ensuring the accuracy of critical control data and application code. The self-test function and memory status LEDs simplify troubleshooting, allowing quick identification of memory-related issues.

Seamless VMEbus Integration: The VMEchip1 controller supports 32-bit VMEbus data transfers with burst mode, ensuring compatibility with legacy and modern VMEbus SBCs (e.g., Motorola MVME-162 series). As a slave device, it responds promptly to host memory requests, maintaining system synchronization and performance.

Typical Application Scenarios

Memory-Intensive Industrial Control: In semiconductor manufacturing equipment running complex motion control software, the **Motorola MVME-147SA1** expands the memory capacity of the host MVME-162-513A SBC. The 32 MB DRAM stores large motion control algorithms and real-time sensor data, while burst mode ensures fast data transfer between the SBC and memory module—critical for precise wafer positioning.

Data Logging in Process Automation: In chemical processing plants, the module serves as extended memory for data logging systems. It stores large volumes of process data (e.g., temperature, pressure, flow rates) collected by analog I/O modules, allowing the host SBC to analyze historical trends and generate reports. Optional ECC ensures data integrity for regulatory compliance.

Multi-Tasking Embedded Systems: In transportation control systems (e.g., railway signaling), the **Motorola MVME-147SA1** supports multi-tasking OS (e.g., VxWorks) running on the host SBC. The expanded memory allows simultaneous execution of control, monitoring, and communication tasks, ensuring smooth operation of interconnected subsystems. The self-test function provides fail-safe memory validation during system startup.

Legacy System Upgrade: In retrofitting older industrial machinery with memory-limited SBCs (e.g., MVME-162-22), the module upgrades memory capacity from 4 MB to 32 MB, enabling the system to run updated control software without replacing the core SBC. This reduces retrofit costs while extending the lifecycle of existing automation infrastructure.

Related Model Recommendations

Motorola MVME-147LA: Lower-capacity memory module with 16 MB base capacity, ideal for cost-sensitive systems complementing **Motorola MVME-147SA1**.

Motorola MVME-162-513A: High-performance 68040-based SBC compatible with **Motorola MVME-147SA1**, requiring expanded memory for complex applications.

Motorola MVME-335A: Analog output module paired with **Motorola MVME-147SA1** and host SBC for closed-loop process control systems.

GE VMIVME-7650: Digital I/O module complementary to **Motorola MVME-147SA1**, adding discrete control capabilities for industrial machinery.

Motorola MVME-197LE: Compact memory expansion module, used with **Motorola MVME-147SA1** to further increase system memory capacity.

Motorola MVME-605: Next-generation PowerPC SBC, pairing with **Motorola MVME-147SA1** for upgraded systems requiring high memory bandwidth.

Motorola MVME-620

Installation & Maintenance Guidelines

Installation Preparation: Before installing the **Motorola MVME-147SA1**, ensure the VMEbus chassis is powered off and properly grounded. Align the module with the 3U slot guides, verifying P1/P2 backplane connector alignment. Gently insert until fully seated, then fasten front-panel screws to prevent vibration-induced disconnections. If expanding memory, install optional memory modules following the manufacturer’s pin alignment guidelines.

Maintenance Best Practices: Perform quarterly inspections to clean dust from connectors and front-panel status LEDs using compressed air. Run the self-test function monthly to verify memory integrity. Monitor memory status LEDs during system operation to identify potential issues (e.g., parity errors). Ensure the 5V DC power supply is stable (±5%) to prevent memory corruption or module damage. Use only genuine Motorola memory upgrade kits to maintain VMEbus compatibility and performance.

Service & Warranty Commitment

The **Motorola MVME-147SA1** is backed by a 2-year manufacturer’s warranty covering defects in materials and workmanship under normal industrial operation. Motorola’s technical support team provides professional assistance via email and phone, with response times within 24 hours for critical issues. We offer remote diagnostic services to troubleshoot memory-related problems, minimizing on-site service costs. For legacy systems, we provide memory upgrade and repair services to extend product lifecycle. Our commitment to quality ensures that the **Motorola MVME-147SA1** delivers consistent, reliable memory performance, protecting your investment in industrial automation infrastructure.