Product Overview
The MNI-1400-1700-NF is a high-grade RF Coaxial Isolator operating in the 1400-1700MHz range. Designed to handle up to 50W CW power, this component provides critical protection for sensitive RF sources and power amplifiers. With its N-Female connectors and low-loss design, it ensures optimal signal flow in one direction while effectively suppressing reflected waves, maintaining peak system stability.
Technical & Mechanical Specifications
| Parameter | Specification |
|---|---|
| Model No. | MNI-1400-1700-NF |
| Frequency Range | 1400-1700MHz |
| Insertion Loss (dB) | ≤0.4 |
| VSWR | ≤1.25 |
| Isolation (dB) | 21 min |
| Power Rating (W) | 50W CW |
| Operating Temperature (°C) | -30 ~ +70 |
| Impedance (Ω) | 50 |
| Connector Type | N-Female |
Frequently Asked Questions
- Q1: What are the target industries for this 1400-1700MHz Isolator?
- A: This model is versatile and widely used in Military, Space, and Commercial applications. Its frequency range is particularly suited for L-band satellite communications, telemetry, and specialized tactical radio systems.
- Q2: How does the Low Insertion Loss of ≤0.4dB impact system efficiency?
- A: The exceptionally Low Insertion Loss ensures that your signal power is preserved as it passes through the isolator. This is critical for 50W systems to prevent unnecessary heat generation and maintain the maximum possible output at the antenna.
- Q3: Does this isolator support continuous operation at high power levels?
- A: Yes, it is rated for 50W CW (Continuous Wave) power. This makes it ideal for consistent, long-term transmission tasks in communication base stations where high reliability is a mandatory requirement.
- Q4: Can this device operate in extreme environmental conditions?
- A: Absolutely. With an operating temperature range of -30°C to +70°C, this isolator is built to function reliably in both sub-zero aerospace conditions and high-heat industrial or desert environments.
- Q5: What protection does the 21dB Isolation provide?
- A: The 21dB Isolation provides a robust unidirectional path, preventing reflected signals (caused by load mismatches or antenna damage) from reaching and potentially destroying the upstream active RF components.
Mechanical Drawing
Product Detail Images
