Product Overview

The ADE-25 High Linear Low Noise RF Mixer is designed for efficient frequency conversion in VHF/UHF applications. With a frequency range of 5-2500MHz, this passive mixer stands out for its low conversion loss, making it an ideal choice for professionals looking for reliable RF solutions.

Key Features

• Low Conversion Loss: Achieves conversion loss ratios of 7.0dB, ensuring high performance.
• Compact Design: Lightweight and small size for easy installation in tight spaces.
• Versatile Frequency Options: Available in multiple types: ADE-1 (0.5-500MHz), ADE-6 (0.05-250MHz), and ADE-25 (5M-2500MHz).
• Durable Operating Conditions: Functions effectively between -40°C to 85°C and stores safely from -55°C to 100°C.
• Patented Technology: Features excellent L-R isolation, protected by US patent 6,133,525.

Technical Specifications

Authentic Use Cases

This passive mixer is perfect for various applications, including communications systems, signal processing, and other RF-related tasks where efficient frequency conversion is crucial. The ADE-25 can be used effectively in complex setups requiring low noise amplification.

Frequently Asked Questions

1. What frequency ranges are available for the ADE mixers?

The ADE mixers come in several options: ADE-1 (0.5-500MHz), ADE-6 (0.05-250MHz), and ADE-25 (5M-2500MHz).

2. What is the maximum RF power this mixer can handle?

The ADE-25 mixer can handle an RF power capacity of up to 50mW.

3. How does the ADE-25 perform in terms of conversion loss?

The ADE-25 offers a low conversion loss of 7.0dB, making it highly efficient for RF applications.

4. Can the ADE-25 be used in outdoor environments?

Yes, the mixer operates effectively within a temperature range of -40°C to 85°C, suitable for various environments.

Originality and Unique Features

The ADE-25 stands out in the market due to its patented technology that ensures excellent L-R isolation while maintaining a compact and lightweight design. This makes it easy to integrate into various systems without compromising performance.