Product description
The Qualcomm SMB-1351-0-49CWLNSP-TR-02-0-17 is an advanced electronic component designed for high-performance applications that require dense integration and low latency. It integrates multiple functionalities into a single unit, streamlining system design and reducing the need for external components.
Its low-latency design makes it particularly valuable for applications where rapid data processing and transmission are critical. This is essential for systems like real-time communications and high-speed data networks, where every millisecond counts.
The component is also equipped with robust EMI shielding, which protects sensitive circuitry from electromagnetic interference. This shielding ensures that the component maintains stable operation and signal integrity in environments prone to EMI, which is crucial for maintaining overall system performance.
With support for wide signal bandwidth and precise impedance matching, the SMB-1351-0-49CWLNSP-TR-02-0-17 ensures efficient signal processing and minimal power loss. Its defined temperature coefficient allows it to operate reliably across varying temperatures, making it versatile for different applications.
Overall, the Qualcomm SMB-1351-0-49CWLNSP-TR-02-0-17 is designed to offer high integration, low latency, and robust EMI protection, making it an ideal choice for demanding electronic and communication systems.
Specification parameters
Signal Bandwidth: The component supports a wide signal bandwidth, accommodating high-speed data transfer and broad frequency range requirements. This capability is essential for applications that demand high data throughput and frequency agility.
Impedance Matching: Designed with precise impedance matching capabilities, the SMB-1351-0-49CWLNSP-TR-02-0-17 ensures efficient signal transfer and minimal reflection losses. This feature is crucial for maintaining signal quality and reducing power loss.
Temperature Coefficient: The component has a defined temperature coefficient, which specifies how its performance varies with temperature changes. This ensures reliable operation across a range of temperatures, contributing to its suitability for various environmental conditions.