| Customization: | Available |
|---|---|
| Type: | Low Noise Power Amplifier |
| Frenquency Range: | 0.6GHz~0.8GHz |
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| Parameter Min Typical Max Units | ||||
| Frequency Range | 0.6 | 0.8 | GHz | |
| Small Signal Gain | 30 | dB | ||
| Small Signal Gain Flatness | ±0.5 | dB | ||
| Noise Figure | 1.4 | dB | ||
| Output Power 1dB compression | 12 | dBm | ||
| IP3 | dBm | |||
| VSWR Input/output | 2:1 | Ratio | ||
| DC Power Supply | 12 | Volt | ||
| Current | 150 | mA | ||
| Parameter Min Typical Max Units | ||||
| Max Input power | 20 | dBm | ||
| Operating Temperature | -40 | +85 | ˚C | |
| Non-operating Temperature | -55 | 125 | ˚C | |
| Relative humidity (non-condensing) | 95 | % | ||
| Altitude (MIL-STD-810F) | 10000 | 30000 | feet | |
| Shock / Vibration (MIL-STD-810F) | Airbone | |||
| Parameter Value Limits Units | |||
| Dimensions | 34.4*16.8*8.1 | Max | Millimeter |
| Weight | 50 | Max | gram |
| RF Connectors Input | SMA-F | ||
| RF Connectors output | SMA-F | ||
| Impedance | 50 | ohms | |
The 0.6-0.8GHz Low Noise RF Power Amplifier is a specialized device designed to amplify RF signals within the frequency range of 0.6 to 0.8 gigahertz (GHz) with low noise characteristics.
Frequency Range: Operates within the frequency range of 0.6GHz to 0.8GHz, making it suitable for applications requiring amplification in this specific frequency band.
Low Noise Design: Incorporates low-noise amplifier design techniques, minimizing the introduction of additional noise during signal amplification. This is crucial for maintaining signal clarity and integrity, especially in sensitive communication and measurement systems.
Microwave Frequency Band: This amplifier operates in the microwave frequency band, which is commonly used in radar systems, satellite communications, microwave links, and other high-frequency applications.
High Linearity: Offers high linearity to ensure that the amplified signal retains its fidelity and accuracy, making it suitable for applications that require precise signal reproduction.
Broadband Capability: While operating within the 0.6-0.8GHz range, it may have a broadband design that allows it to handle a range of frequencies within this band, providing versatility in various RF applications.
Applications: The 0.6-0.8GHz Low Noise RF Power Amplifier finds applications in radar systems, communication equipment, test and measurement setups, and other RF systems requiring low noise and high-quality signal amplification in the 0.6-0.8GHz frequency range.
Stability and Reliability: Designed to deliver stable and reliable performance, meeting the stringent requirements of critical communication and measurement systems.
This type of low noise RF power amplifier is crucial in maintaining signal quality and ensuring accurate signal amplification within the specified frequency range, contributing to the overall performance and reliability of RF-based systems.
| Parameter Min Typical Max Units | ||||
| Frequency Range | 0.6 | 0.8 | GHz | |
| Small Signal Gain | 30 | dB | ||
| Small Signal Gain Flatness | ±0.5 | dB | ||
| Noise Figure | 0.9 | dB | ||
| Output Power 1dB compression | 10 | dBm | ||
| IP3 | dBm | |||
| VSWR Input/output | 2:1 | Ratio | ||
| DC Power Supply | 12 | Volt | ||
| Current | 150 | mA | ||
| Parameter Min Typical Max Units | ||||
| Max Input power | +20 | dBm | ||
| Operating Temperature | -40 | +85 | ˚C | |
| Non-operating Temperature | -55 | +125 | ˚C | |
| Relative humidity (non-condensing) | 95 | % | ||
| Altitude (MIL-STD-810F) | 10000 | 30000 | feet | |
| Shock / Vibration (MIL-STD-810F) | Airbone | |||
| Parameter Value Limits Units | |||
| Dimensions | 34.4*16.8*8.1 | Max | Millimeter |
| Weight | 50 | Max | gram |
| RF Connectors Input | SMA-F | ||
| RF Connectors output | SMA-F | ||
| Impedance | 50 | ohms | |
Wireless Communication Systems: RF power amplifiers are used to enhance the power of wireless signals in various communication systems, including mobile communication base stations, wireless LAN (Wi-Fi), cellular networks, and cellular phones. They improve signal transmission distance and coverage, ensuring communication quality.
Radar Systems: In radar systems, RF power amplifiers are utilized to boost the power of radar signals, including civilian radar, military radar, aviation radar, weather radar, etc. They enhance radar system detection range, target resolution, and anti-interference capability.
Broadcasting and Television: RF power amplifiers are employed to increase the power of broadcasting signals, including radio broadcasting stations, television broadcasting, satellite broadcasting, etc. They improve signal coverage and reception quality in broadcasting and television applications.
Satellite Communication: In satellite communication systems, RF power amplifiers are used to amplify satellite signals, including satellite ground stations, satellite communication equipment, satellite phones, etc. They enhance the reliability and stability of satellite communication.
Medical Equipment: RF power amplifiers are used to boost the signal power of medical equipment, such as medical ultrasound devices, medical magnetic resonance imaging (MRI) equipment, etc. They improve diagnostic accuracy and efficiency in medical applications.
Scientific Research: In scientific research fields, RF power amplifiers are utilized in various experimental and observational equipment, such as astronomical telescopes, particle accelerators, electromagnetic spectrometers, etc. They enhance data acquisition capabilities and accuracy in scientific research.
In summary, RF power amplifiers find significant applications in modern communication, broadcasting, radar, medical, and scientific research fields, providing reliable signal amplification solutions for various RF signal processing needs
1. Our Advantages
Relying on the academic research team of famous universities, the company has established an innovative research and development team with doctoral and master's degree talents, and continues to absorb excellent talents in the industry and outstanding students from famous universities to strengthen the team.The company has about twenty authorised invention patents in microwave devices, circuits and antennas. The application field involves radar, electronic countermeasures, aerospace and aviation.
2. About Customised
We can customise according to customer's requirements, just tell us the frequency, gain, power.
3. About Delivery Time
Customised products are normally 4-6 weeks, if in stock 1-2 weeks can be shipped.
4. How quality is guaranteed
1)Quality Control: Strictly testing raw materials and the production process to meet standards.
2)Performance Testing: Conducting functionality and environmental tests to verify power output and other key metrics.
3)Warranty and Support: Providing a warranty period and technical support to address issues during use.
4)Factory Audits: Regularly conducting internal and third-party quality audits.
5. Delivery Method
If you have your own freight forwarder, we can send to your designated freight forwarder, if not, we can choose the most convenient way of delivery, such as DHL, Fedex, air freight, sea freight.
6.Payment Method
L/C,D/A ,D/P,T/T,Western union, Moneygram, Paypal, Alipay, Bank.
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