RF fixed coaxial attenuator utilizing SMA connector, seamlessly integrate in-line within radio frequency systems. Microstrip attenuator leverage printed circuit board technology to achieve precision in signal attenuation across specific frequency bands. This is particularly crucial in applications such as GPS, where maintaining accurate signal strength is paramount.

Specification

• Model: RDDLZ-SMAJKP-04-50W-20dB
• Frequency Range (Optional): DC~4GHz
• Standing Wave Ratio (VSWR): 1.20:1  (Max)
• Attenuation Value: 20dB
• Impedance: 50 Ohm
• Average Input Power: 50W@25℃
• Pick Power: 1kW (5μsce Pulse Width, 2% Duty Cycle)
• A connector Type: SMA-Male
• B connector type: SMA-Female
• Directionality: SMA Male Input, SMA Female Output
• Temperature Coefficient: ＜0.0004dB/℃
• Working Temperature: -55℃~+100℃
• Inner Conductor Material: Beryllium Bronze with Gold Plating
• Outer Conductor Material: Brass Plated with Ternary Alloy
• Heat Sink: Aluminum Alloy Black
• Insulator: PTFE

Dimension (Unit: mm)

Tips: What is the maximum power handling capability of an attenuator?

The maximum power handling capability of an attenuator depends on its design, construction, and intended application. Attenuators are passive devices used to reduce the amplitude of a signal while maintaining impedance matching. Their power handling capacity is specified by the manufacturer and varies across different models. In general, attenuators are rated for a maximum input power level, beyond which they may experience distortion, damage, or failure. Common attenuator power ratings range from a few watts to several hundred watts for higher-power applications. It's crucial to select an attenuator with a power handling capacity that exceeds the maximum expected signal power to ensure reliable performance and prevent damage to the device. Always refer to the manufacturer's specifications and guidelines for accurate information on the power handling capabilities of a specific attenuator model.