MMRF1314H-1200 Overview
The MMRF1314H-1200 is a high-performance radio frequency (RF) front-end module optimized for wireless communication applications. Designed to provide exceptional gain and low noise figure, it supports frequencies in the 1.2 GHz range, making it suitable for cellular and broadband systems. This module integrates essential RF components into a compact form factor, enhancing system efficiency and simplifying design complexity. Engineers and sourcing specialists trust this product for its reliable performance, robust construction, and compatibility with various industrial standards. For detailed specifications and purchasing information, visit IC Manufacturer.
MMRF1314H-1200 Technical Specifications
| Parameter | Value | Units |
|---|---|---|
| Operating Frequency Range | 1150 to 1250 | MHz |
| Gain | 14 | dB |
| Noise Figure | 1.4 | dB |
| Input Return Loss | 15 | dB |
| Output Return Loss | 12 | dB |
| Output Power at 1 dB Compression (P1dB) | 22 | dBm |
| Supply Voltage | 5.0 | V |
| Current Consumption | 120 | mA |
| Operating Temperature Range | -40 to +85 | ??C |
MMRF1314H-1200 Key Features
- High Gain Performance: The module delivers a gain of 14 dB, ensuring strong signal amplification for improved communication reliability.
- Low Noise Figure: With a noise figure of 1.4 dB, it minimizes signal degradation and enhances sensitivity in challenging RF environments.
- Wide Frequency Range: Supports operation between 1150 MHz and 1250 MHz, covering key cellular and broadband frequency bands.
- Robust Return Loss: Input and output return losses of 15 dB and 12 dB respectively improve impedance matching, reducing signal reflections and power loss.
- High Output Power Capability: Output power at 1 dB compression point reaches 22 dBm, supporting strong transmission signals while maintaining linearity.
- Energy Efficient Design: Operates at 5 V supply voltage with a current consumption of 120 mA, balancing performance with power efficiency.
- Wide Operating Temperature Range: Designed to withstand industrial temperature conditions from -40??C to +85??C, ensuring reliable performance in harsh environments.
MMRF1314H-1200 Advantages vs Typical Alternatives
This module stands out due to its combination of low noise figure and high gain, which together boost sensitivity and signal clarity beyond typical RF front-end solutions. Its robust return loss metrics minimize signal loss and improve overall efficiency. Additionally, the device??s wide operating temperature range and low power consumption offer enhanced reliability and energy savings compared to standard components, making it ideal for demanding industrial wireless applications.
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Typical Applications
- Cellular Base Stations: Provides amplified, low-noise RF signals to enhance uplink sensitivity and overall network performance in 1.2 GHz cellular bands.
- Broadband Wireless Access: Supports fixed wireless access systems requiring stable gain and low noise for extended signal coverage.
- RF Test Equipment: Used in signal generation and measurement setups where precise amplification and linearity are critical.
- Industrial IoT Gateways: Enables robust wireless connectivity by improving signal integrity in harsh or variable temperature environments.
MMRF1314H-1200 Brand Info
Manufactured by a leading semiconductor provider, this RF front-end module exemplifies rigorous design and quality standards tailored for modern wireless communication needs. The brand emphasizes advanced semiconductor technologies and continuous innovation, delivering components that meet stringent industrial requirements. This product benefits from extensive testing and quality assurance, reflecting the brand??s commitment to reliability and performance in demanding RF applications.
FAQ
What frequency band does this RF module support?
The module operates within the 1150 to 1250 MHz frequency range, covering key 1.2 GHz cellular and broadband communication bands. This makes it suitable for applications requiring operation in mid-band cellular frequencies.
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How does the noise figure affect RF performance?
A lower noise figure, such as the 1.4 dB exhibited by this module, indicates reduced signal degradation during amplification. This improves receiver sensitivity and overall system performance, especially in environments with weak or distant signals.
What are the power requirements for this device?
The device requires a 5 V supply voltage and typically consumes 120 mA of current during operation. This balance ensures efficient power usage while maintaining high gain and linearity.
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Can this module operate in harsh environmental conditions?
Yes, the operating temperature range from -40??C to +85??C allows the module to function reliably in a wide variety of industrial and outdoor environments where temperature extremes are common.
What advantages does this module offer in terms of signal integrity?
With input and output return losses of 15 dB and 12 dB respectively, the module minimizes signal reflection and power loss. This enhances impedance matching and contributes to better signal integrity and system efficiency.






