MOTOROLA FAB 0340-1049: System Electronic Module
The MOTOROLA FAB 0340-1049 is a factory-configured electronic module or sub-assembly. Designed for integration into larger Motorola systems, this part performs a dedicated hardware function, such as signal interfacing, power regulation, or specific circuit-level processing, ensuring reliable operation within its intended application platform, including communications infrastructure and industrial control equipment.
Purpose-Built Hardware for System Integration
The MOTOROLA FAB 0340-1049 represents a specialized hardware component within a broader system ecosystem. The "FAB" designation typically refers to a Factory Assembly Board or a defined functional block that is not user-serviceable but is replaced as a unit. This module is engineered to execute a specific electronic task that is integral to the host system's operation. It acts as a reliable, pre-tested building block, saving engineering time and ensuring consistency in manufacturing and repair. Its design prioritizes interoperability with other system components and long-term reliability under continuous operational conditions.
Design Composition and Functional Role
This module is a complete electronic assembly, likely comprising a printed circuit board (PCB) populated with integrated circuits, discrete components, connectors, and possibly shielding. The part number 0340-1049 uniquely identifies its specific Bill of Materials (BOM) and configuration. Its functional role could vary widely—it might be a power supply module providing isolated voltages to a board set, a dedicated modem or codec for signal processing, a radio frequency (RF) front-end module for transceivers, or a custom interface board bridging different internal buses. The design is finalized and validated by Motorola to meet strict performance and environmental specifications.
Integrated Subsystem: A self-contained electronic assembly that performs a complete, defined function within a host chassis or enclosure.
Application-Specific Design: Circuitry is tailored for a particular role within a known Motorola system, such as base station equipment or two-way radio infrastructure.
Robust Construction: Built with industrial-grade or telecommunications-grade components to ensure stability and longevity in the field.
Standardized Interfacing: Features specific connectors, mounting points, and form factors designed for direct installation into the parent system.
Maintenance-Oriented: Designed as a Field Replaceable Unit (FRU), allowing for efficient troubleshooting and repair by swapping the entire module.
Specifications and Compatibility Information
The FAB 0340-1049 is characterized by its physical dimensions, input/output connector types, and electrical requirements (e.g., input voltage, current draw, signal levels). Its performance parameters are defined by the host system's needs, which may include frequency ranges, data throughput, isolation ratings, or thermal dissipation limits. This module is not a standalone product; its compatibility is strictly limited to the specific Motorola system or product family for which it was originally designed. Using the exact part number is crucial for maintaining system functionality, safety certifications, and operational reliability.
Typical Deployment and Host Systems
The FAB 0340-1049 module is deployed within larger Motorola systems, primarily in the fields of professional communications and industrial electronics. It could be a critical component inside a trunked radio system base station (e.g., MOTOROLA SMARTNET, ASTRO), a module within a telecommunications transmission unit, or part of a legacy industrial SCADA or control system. Its role is often central to the core functionality of the host—such as handling critical signal paths, system timing, or power distribution—making it an essential spare part for maintaining operational uptime in critical infrastructure.
Value in System Support and Lifecycle Management
The availability of the genuine FAB 0340-1049 module is of paramount importance for the support and lifecycle management of installed Motorola systems. For service providers and organizations relying on this equipment, having access to this exact factory part ensures that repairs restore the system to its original specification and performance. It eliminates compatibility risks associated with generic or reverse-engineered components. This support extends the viable service life of capital-intensive systems, protects the investment in the installed base, and ensures continued reliability for mission-critical communication and control functions.
Conclusion
The MOTOROLA FAB 0340-1049 exemplifies the modular, serviceable design philosophy used in complex electronic systems. As a certified and tested assembly, it provides a dependable solution for a specific functional need within a broader technological architecture. For technicians, system maintainers, and procurement officers responsible for the integrity of Motorola-based infrastructure, this module is more than a component—it is a key to sustaining system performance and ensuring long-term operational continuity in demanding professional and industrial environments.
