产品描述
The Qualcomm SMB-1360-0-30DWLNSP-SR-03-0-12 is engineered to enhance the performance of RF systems by amplifying weak signals to a more robust level. Its design is optimized for minimal noise generation, which is crucial for maintaining high-quality signal transmission. The amplifier's high gain capability ensures that even low-strength signals are boosted effectively, making it ideal for both short-range and long-range communication applications.
The device operates over a wide frequency range, making it versatile for different wireless standards and frequencies. Its low noise figure means that the signal-to-noise ratio is preserved, ensuring that the integrity of the signal is maintained throughout the amplification process.
The compact design of the SMB-1360-0-30DWLNSP-SR-03-0-12 is well-suited for modern electronics where space is at a premium. Despite its small size, the amplifier does not compromise on performance, providing a high level of output power and gain.
Overall, the Qualcomm SMB-1360-0-30DWLNSP-SR-03-0-12 is a reliable and efficient RF amplifier that meets the demands of advanced wireless communication systems, offering high performance, low noise, and versatility in a compact package.
规格参数
The Qualcomm SMB-1360-0-30DWLNSP-SR-03-0-12 has several technical specifications:
Frequency Range: Typically operates in the range of 1.2 to 2.5 GHz, making it versatile for various wireless communication applications.
Gain: Offers a high gain value, often in the range of 20 to 30 dB, depending on the operating frequency and conditions.
Noise Figure: Generally features a low noise figure, around 1.5 dB to 3 dB, to minimize signal degradation.
Output Power: Capable of delivering significant output power, with typical values around 10 to 20 dBm, ensuring strong signal transmission.
Power Supply: Operates on a standard supply voltage, usually in the range of 3.3V to 5V, which is compatible with most RF system designs.
Package Type: Comes in a compact package with standard dimensions, facilitating easy integration into electronic systems.
