| Type: | Low Noise Power Amplifier |
|---|---|
| Module No.: | Swpa021029g4501 |
| Frequency Range: | 2.1GHz~2.9GHz |
| Small Signal Gain: | 45dB |
| Noise Figure: | 100K |
| DC Power Supply: | 15volt |
| Customization: |
|---|
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1.Low Noise Figure (NF): Within the 2.1GHz to 2.9GHz frequency range, low-noise amplifiers typically exhibit excellent noise performance, ensuring signal clarity and accuracy.
2.High Gain: These amplifiers provide high gain, effectively amplifying weak signals within the 2.1GHz to 2.9GHz frequency range.
3.Broadband Design: Some low-noise amplifiers are designed to be broadband, covering the entire 2.1GHz to 2.9GHz frequency range, suitable for applications with a wide frequency range.
4.High Linearity: Some low-noise amplifiers have good linearity, ensuring signal accuracy and stability during amplification.
5.Low Power Consumption Design: While maintaining performance, these amplifiers typically feature low power consumption design, helping to reduce system power consumption and heat generation.
6.Multiple Interfaces: Some low-noise amplifiers come with multiple interfaces, making it convenient to connect with other systems or devices for data exchange.
In summary, low-noise amplifiers operating in the 2.1GHz to 2.9GHz range are suitable for applications requiring the amplification of weak signals and high signal-to-noise ratio (SNR) within this frequency range, such as in communication systems, radar systems, and receiver designs in medical equipment.
| Parameter Min Typical Max Units | ||||
| Frequency Range | 2.1 | 2.9 | GHz | |
| Small Signal Gain | 45 | dB | ||
| Small Signal Gain Flatness | ±0.5 | dB | ||
| Noise Figure | 100 | K | ||
| Output Power 1dB compression | 10 | dBm | ||
| IP3 | dBm | |||
| VSWR Input/output | 1.3:1 | Ratio | ||
| DC Power Supply | 15 | 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 | 46.9*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.
Staffing
FAQ
Q1. Could I get a sample before bulk order?
Yes, we offer the sample for all models but charged.
Q2. What should I do if I don't know about frequency in my country?
Please feel free to contact us with your inquiry, we will find the frequency you need and offer help to your problems.
Q3. Do you accept OEM/ODM order?
Yes, we can customize the brand logo, colors, and frequencies.
Q4.Shipment Date
| Sample | 20 business days |
| ≤50 pcs | 60 business days |
| >50 pcs | 90 business days |
| >200 pcs | Negotiate |
Q5: Delivery Date of the sample by DHL/FedEx
| USA/Canada/Europe/Asia | 3-5 days |
| Middle East/Latin American | 5-7 days |
| African | 3-7 days |
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