Ultra-Wideband Power Amplifier

UWB  | Frequency-Power Matching Solutions and Application Scenarios

As a core enabling component for wireless signal transmission, our UWB ultra-wideband power amplifier (UWB PA) leverages its full-band coverage and multi-power gradient design to precisely meet signal amplification requirements across various industries. The product line comprises two frequency series: the 0.3GHz-6GHz broadband series and the 7GHz-18GHz ultra-wideband series, offering output power ranging from 20W to 300W. Combining high gain, high efficiency, and industrial-grade stability, it provides a one-stop signal amplification solution featuring "frequency precision matching + power selection on demand" for applications in radar systems, satellite communications, wireless infrastructure, and industrial inspection. This enables customers to extend signal transmission distances, expand coverage areas, and enhance transmission stability. Below is a detailed introduction to application scenarios and solutions.

I. Core Product Positioning: Precise Dual-Dimensional Alignment of Frequency and Power

The core advantage of our UWB ultra-wideband power amplifier lies in its "full-band coverage + multi-power gradient" design. Each frequency series has distinct focuses with clear power gradations, enabling rapid model matching based on specific frequency requirements and signal amplification intensity for various scenarios. This plug-and-play capability eliminates additional debugging, significantly reducing customer selection and integration costs.

1. Core distinctions between two major frequency series

• The 0.3GHz-6GHz broadband series covers mid-to-low frequency bands across the entire spectrum from 0.3GHz to 6.3GHz. Featuring diverse models with power outputs ranging from 30W to 300W, it is compatible with most civilian and industrial short-to-medium-range signal amplification applications. Boasting strong compatibility, high cost-effectiveness, and easy integration, the series leverages gallium nitride (GaN) technology to deliver dual guarantees of high linearity and robust RF output performance.

• The 7GHz-18GHz Ultra Broadband Series: Designed for high-frequency signal transmission, it focuses on the 7GHz to 18GHz spectrum with power output ranging from 20W to 200W. Featuring minimal signal interference and high transmission accuracy, this series meets stringent requirements for long-distance, high-precision signal amplification in advanced applications such as high-frequency radar and satellite communications.

2. Power gradient adaptation logic

Based on scenario-specific signal transmission distance, coverage range, and load requirements, the power gradient is precisely segmented with clear matching logic:

• Low-power (20W-80W): Designed for small devices and short-range signal amplification applications, such as compact radars, portable wireless communication devices, and laboratory testing instruments. It balances low power consumption with portability, making it ideal for scenarios with stringent volume and weight requirements.

• Medium power (100W): The mainstream power specification compatible with most industrial and commercial applications, including conventional radars, wireless base stations, and medium-scale security surveillance signal amplification. It balances power output, efficiency, and compact size, making it the most widely adopted power gradient solution.

• High-power (200W-300W): Designed for long-range, wide-area signal coverage applications including large phased array radars, satellite ground stations, and long-distance wireless communication links. It enables efficient long-distance signal amplification, fulfilling the core requirements of high-power solid-state transmitters.

II. Core Application Scenarios + Frequency-Power Matching Solutions

Leveraging product frequency coverage and power gradient advantages, we deliver customized solutions tailored to signal amplification challenges across diverse industry scenarios. By clearly specifying recommended models, frequencies, and power matching logic, we empower customers to make swift selections and achieve efficient implementation.

Scenario 1: Radar System (Meteorological, Navigation, and Security Radar)

Scene pain points

Radar systems must select amplifiers with appropriate frequencies and power levels based on detection range and precision requirements. Mid-to-low frequency radars (such as security and navigation systems) require balanced coverage range and cost considerations, while high-frequency radars (like meteorological and precision detection systems) must ensure signal accuracy and anti-jamming capabilities. Amplifiers should also demonstrate industrial-grade stability for long-term continuous operation, with some applications additionally demanding pulsed power amplification performance.

Adaptive Solution

• Medium-low frequency radar (0.3GHz-6GHz, detection range 1-50km):

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￮ Short-range security radar (detective range 1-5km): The PA-0363G-30W model (0.3GHz-6.3GHz, 30W) is recommended. Featuring compact dimensions (130.5x62.9x24.5mm) and lightweight construction (360g), it is ideal for small-scale security radar systems with low power consumption, high efficiency, and rapid integration capabilities.

￮ Medium-range navigation and weather radar systems (detecting range 5-50km): Recommended models include PA-0330G-100W (0.3GHz-3GHz, 100W) and PA-2006G-100W (2GHz-6GHz, 100W). These devices feature 52dB gain, ±2dB flatness, and stable signal amplification, meeting conventional radar requirements while balancing efficiency and stability.

￮ Long-range large-scale radar systems (detecting distances exceeding 50km): The PA-2062G-300W is recommended (operating frequency range: 2GHz-6.2GHz, power output: 300W). With a maximum output power of 300W and 55dB gain, it enables efficient long-distance signal amplification. Designed for large phased array radars, this solution meets high-power transmission requirements while incorporating advanced thermal management technology to ensure long-term stable operation.

• High-frequency precision radar (7GHz-18GHz, with high detection accuracy):

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￮ Medium-range high-frequency radar (7GHz-13GHz): The PA-70130G-100W (7-13GHz, 100W) is recommended for its precise frequency coverage, 50dB gain, ±2dB flatness, and strong anti-interference capability, making it ideal for precision navigation and compact weather radars.

￮ Long-range high-frequency radar (13GHz-18GHz): The PA-137150G-200W (13.75GHz-15GHz, 200W) is recommended, featuring a maximum output power of 200W and 53dB gain. With high signal amplification accuracy, it is compatible with large-scale high-frequency weather radars and precision detection radars, capable of compensating for long-distance signal attenuation to ensure detection accuracy.

• Core advantages: Full-frequency band coverage compatible with various radar types, precise power gradient matching for detection range, high gain and low distortion, industrial-grade wide-temperature design (some models adaptable to harsh environments), long-term continuous operation to reduce radar system maintenance costs, and optimized power-efficiency balance achieved through gallium nitride technology.

Scenario 2: Satellite Communication and Wireless Infrastructure

Scene pain points

Wireless infrastructure such as satellite communication ground stations and 5G/6G base stations requires selection of appropriate power amplifiers based on communication frequency bands and transmission distances. Medium and low-frequency band base stations must balance signal coverage with user capacity, while high-frequency band satellite communications need to ensure signal penetration and stability. The amplifiers should feature high efficiency and low power consumption to meet integration requirements for base stations and ground stations. In certain scenarios, they must also comply with domestic application standards.

Adaptive Solution

• Low and mid-frequency wireless base stations (0.3GHz-6GHz):

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￮ Compact base stations (coverage range 1-3km): Recommended models include PA-0435G-80W (0.4GHz-3.5GHz, 80W) and PA-1060G-50W (1GHz-6GHz, 50W). These medium-sized units deliver 25%-27% efficiency, making them ideal for small communities and industrial parks to balance coverage and power consumption.

￮ Medium-sized base stations (coverage range 3-10km): Recommended models include PA-0320G-100W (0.3GHz-2GHz, 100W) and PA-1525G-100W (1.5GHz-2.5GHz, 100W). These units deliver 45-52dB gain with flatness ≤5dB, ensuring uniform signal coverage. Ideal for urban and suburban medium-sized base stations, they support multi-antenna array operation to enhance communication quality.

￮ 5G-Advanced base station (7GHz band): The PA-70130G-50W (7-13GHz, 50W) is recommended for compact designs, optimized for 7GHz band deployment. This solution lays the groundwork for 6G transition while enhancing installation convenience and signal coverage capabilities.

• Satellite communication ground station (7GHz-18GHz):

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￮ Medium and small ground stations (for short-range satellite communication): The PA-70130G-50W (7-13GHz, 50W) is recommended. With its compact size (120x80x27.5mm), it is ideal for medium and small ground stations, enabling stable satellite signal reception and amplification while compensating for path loss during signal transmission.

￮ Large-scale ground stations (for long-distance satellite communication): The recommended models include PA-137150G-100W (13.75GHz-15GHz, 100W) and PA-160180G-100W (16GHz-18GHz, 100W). These devices demonstrate strong frequency band adaptability and exceptional signal anti-interference capabilities, effectively meeting the signal amplification requirements for long-distance satellite communication while ensuring stable high-speed data transmission. When paired with cascaded traveling wave tube amplifiers, they significantly enhance signal reception levels.

• Core advantages: Frequency coverage adapts to base stations and satellite communication across all frequency bands, with power gradient matching for varying coverage ranges. The high-efficiency, low-power design reduces operational costs, while standardized dimensions facilitate integration. Frequency bands can be customized to meet client requirements and comply with regional communication standards. Selected models support domestic application needs.

Scenario 3: Industrial Inspection and Testing Measurement

Scene pain points

In industrial non-destructive testing, electromagnetic compatibility testing, and laboratory signal testing scenarios, compact and high-precision power amplifiers must be selected based on testing frequency and distance. Some applications require portable designs with small size and lightweight construction while maintaining signal amplification accuracy, low distortion, and high stability to meet the miniaturization integration demands of industrial inspection equipment. Additionally, certain scenarios necessitate driving ultrasonic probes, sensors, and other devices.

Adaptive Solution

• Industrial detection in the low-to-mid frequency band (0.3GHz-6GHz):

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￮ Portable detection equipment (e.g., handheld electromagnetic detection instruments): The PA-0363G-30W (0.3GHz-6.3GHz, 30W) is recommended. With a weight of only 360g and minimal size, it is compatible with portable devices and enables precise amplification of medium and low-frequency detection signals, meeting the requirements of industrial non-destructive testing and microfluidic chip testing scenarios.

￮ Fixed detection equipment (e.g., electromagnetic testing equipment for production lines): The recommended models include PA-1040G-100W (1GHz-4GHz, 100W) and PA-3060G-70W (3GHz-6GHz, 70W), featuring gain levels of 45-52dB and stable signal amplification. These devices are designed for continuous testing in fixed scenarios and can drive ultrasonic probes to perform micron-level defect detection on metal composite materials.

• High-frequency testing and measurement (7GHz-18GHz):

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￮ High-frequency laboratory testing: The recommended models include PA-70130G-50W (7-13GHz, 50W) and PA-155165G-20W (15.5GHz-16.5GHz, 20W). These compact devices feature high precision and are ideal for high-frequency signal testing in laboratories. They can be used to evaluate the performance of microwave components and high-frequency sensors, meeting stringent high-precision testing requirements.

￮ Industrial high-frequency inspection (e.g., aerospace component inspection): The PA-137150G-100W (13.75GHz-15GHz, 100W) is recommended for its strong high-frequency adaptability and low signal distortion, enabling high-frequency electromagnetic inspection of aerospace components to ensure compliance with performance standards.

• Core advantages: Compact and lightweight design for portable devices, high precision and low distortion to ensure testing accuracy, full frequency band coverage to meet diverse detection requirements, strong adaptability to industrial environments for stable operation in complex industrial settings, and standardized interfaces for seamless integration with existing detection equipment.

Scenario 4: Electronic Warfare and Special Communications

Scene pain points

In scenarios such as electronic countermeasures and specialized communications, high-frequency, high-power amplifiers are required. These devices must demonstrate strong anti-interference capabilities and stable signal amplification to enable long-distance signal transmission and interference signal amplification. They must also possess industrial-grade reliability for sustained operation in harsh environments. Certain applications necessitate pulsed power amplification capability to meet instantaneous peak demand requirements.

Adaptive Solution

• Medium and low-frequency electronic countermeasures (0.3GHz-6GHz): The recommended models include PA-2062G-300W (2GHz-6.2GHz, 300W) and PA-0710G-200W (0.7GHz-1GHz, 200W). Their high-power output enables efficient interference signal amplification with gain levels reaching 53-55dB, demonstrating strong anti-jamming capabilities. These devices are specifically designed for medium and low-frequency electronic warfare scenarios and can be deployed in military jamming transmitters and related equipment.

• High-frequency specialized communication (7GHz-18GHz): The PA-137150G-200W (operating at 13.75GHz-15GHz with 200W output power) is recommended. Featuring maximum 200W output, this device demonstrates strong frequency band adaptability and stable signal transmission, enabling long-range specialized communication. Its anti-interference capabilities make it ideal for complex environments, including submarine communications and underwater robot command transmission scenarios requiring signal amplification.

• Core Advantages: High power output and high-frequency band adaptation meet electronic warfare and specialized communication requirements. Enhanced anti-jamming capabilities and high stability ensure reliable operation in harsh environments. Industrial-grade protective design accommodates complex conditions including extreme temperatures and humidity, meeting military-grade reliability standards. Selected models support pulse or continuous wave (CW) applications, enabling flexible deployment across diverse operational modes.

III. Frequency-Power Selection Guide (Rapid Matching, Efficient Selection)

IV. Core Product Value and Compatibility Description

core value

• Full frequency coverage: Spanning the entire 0.3GHz-18GHz spectrum without additional customization, it accommodates frequency requirements across diverse industries and scenarios. Leveraging gallium nitride technology, it delivers high-efficiency amplification across all frequency bands, overcoming the limitations of traditional power amplifier ranges.

• Full power gradient range: 20W-300W multi-power gradient, precisely matching signal amplification intensity and transmission distance requirements to avoid power waste, reduce customer costs, and accommodate power and efficiency demands across various scenarios.

• High reliability: Industrial-grade design with wide temperature adaptability (suitable for various complex environments), featuring high gain, low distortion, and high efficiency. Capable of long-term continuous operation to reduce maintenance costs. Selected models have passed rigorous environmental tests, meeting military-grade quality requirements.

• Easy integration: Standardized dimensions and unified interface design enable compatibility with various terminal devices and system integration, eliminating complex debugging requirements with plug-and-play functionality. This significantly reduces customer project implementation cycles, while certain models achieve full-band operation without external matching.

• Customized support: We can design tailored models based on customers' specific frequency and power requirements to meet signal amplification needs in special scenarios. Additionally, we provide technical support to assist customers with integration and debugging.

Compatibility Notes

All models feature standardized designs with operating voltages ranging from 28V to 32V, compatible with mainstream industrial power systems. Their dimensions and weight are optimized according to power ratings, balancing integration convenience with operational stability. Rigorous testing ensures compliance with specifications for frequency accuracy, power output, and gain performance. These products find extensive applications across radar systems, satellite communications, wireless base stations, industrial inspection systems, and electronic countermeasures.

For detailed specifications of specific models, customized solutions, or selection guidance, please visit our official website jiffy2016.com. We provide dedicated technical support and implementation services to ensure your project is delivered efficiently.