Product Overview
The RF Attenuator (5W, DC-3GHz) is a high-performance passive component designed for stable signal reduction across 2G/3G/4G and LTE frequency bands. With an average power handling of 5W and a low VSWR (≦1.20), it ensures minimal signal reflection and high technical stability. This N-male to N-female attenuator is engineered for IBS & DAS indoor applications, providing precise control for in-building wireless communication networks.
Technical Specifications
| Model | MNA-3G-5-XX-N (XX refers to attenuation) | ||
| Power | 5W | ||
| Frequency(GHz) | DC-3GHz | ||
| VSWR | ≦1.20 | ||
| Attenuation (dB) | 5 | 10 | 20 |
| Accuracy(dB) | ±0.6 | ±1.0 | ±1.0 |
| Impedance(ohm) | 50 | ||
| RF Connector | N/M-N/F | ||
| Working Temp(deg) | -55~+125 | ||
| Color | Silvery White | ||
| Weight(kg) | 0.15 | ||
| Size(mm) | Φ18*58 | ||
NOTE: All technical specifications can be modified to meet specific project needs. Our company provides 24-hour technical support and professional OEM customization for various power levels and frequency requirements.
Frequently Asked Questions
- Q1: What makes this 5W attenuator suitable for IBS and DAS systems?
- A: This attenuator is designed to handle up to 5 Watts of average power, making it robust enough for standard signal distribution in indoor networks. Its low VSWR ensures that signal reflections are minimized, which is critical for maintaining high-quality 4G LTE connectivity in large buildings.
- Q2: How does the attenuation accuracy impact my RF measurements?
- A: With an accuracy of ±0.6dB to ±1.0dB, our attenuators provide highly reliable power reduction. This precision allows engineers to fine-tune signal levels accurately during system commissioning and troubleshooting.
- Q3: Is the N-male to N-female connector configuration reversible?
- A: While the attenuator functions physically in both directions, it is designed with a specific N-male to N-female interface to allow easy integration into existing cable runs and port connections without the need for extra adapters.
Mechanical Drawing
