RF test bench with instruments and amplifiers

CorelixRF / High Frequency RF

High Frequency RF Power Amplifiers

Factory-direct high-frequency RF power amplifiers based on available 6–18 GHz and 18–40 GHz datasheet families, with data-request support for output power, connector, cooling and control interface review.

CorelixRF uses datasheet-based model review and engineering confirmation before quotation. Share your target band, power class and application conditions to request the most relevant datasheet, measured RF data or platform recommendation.

6–18 GHz Datasheet Series 18–40 GHz Data Review Measured RF Data Support Custom Microwave Engineering

Select Operating Band

// RF Test Laboratory — High-Frequency Validation

Spectrum Analyzer

Power Measurement

RF Validation

// Data Request Guide

High-Frequency RF Amplifier Data Request Guide

Select the closest operating band or requirement type. Dedicated pages are available for 6–18 GHz and 18–40 GHz. Other high-frequency requirements can be reviewed through the data request / RFQ popup.

S / C-Band

S / C-Band Data Request

For S/C-band or other high-frequency windows that are not handled by the dedicated 6–18 GHz or 18–40 GHz pages.

Best next step: data request / RFQ popup

6–18 GHz

CRF-PA-6000M18000M Series

Datasheet-supported 6–18 GHz wideband RF amplifier family with available power classes from 10W to 1000W.

Best next step: view dedicated 6–18 GHz page

View 6–18 GHz Series

18–40 GHz

K / Ka-Band Microwave Amplifiers

Dedicated 18–40 GHz microwave amplifier page for K / Ka-band requirements, data review and project-based confirmation.

Best next step: view dedicated 18–40 GHz page

View 18–40 GHz Series

Narrowband GHz

Band-Specific Amplifier

For focused bandwidth, higher efficiency, improved power stability or special connector and control requirements.

Best next step: compare narrowband amplifier options

View Narrowband Amplifiers

Not Sure

Engineering Review Path

Share frequency, power, operating mode, cooling preference and application. CorelixRF will recommend a suitable standard, narrowband or custom path.

Best next step: data request / RFQ popup

// Engineering Perspective

High-Frequency RF Amplifier Sourcing Challenges

High-frequency RF amplifier sourcing requires more than comparing output power and frequency range. Engineering buyers need stable performance across the band, reliable protection, mechanical integration support, and measured RF data before committing to a project.

RF amplifier under test with instruments

// High-Frequency RF Amplifier Under Test

Output Power Drops at Higher GHz Bands

Maintaining stable output power across microwave frequency ranges becomes more difficult as the operating frequency increases.

Gain Flatness Affects System Accuracy

For wideband families such as 6–18 GHz and microwave ranges such as 18–40 GHz, gain variation can directly affect system calibration, link budget and repeatability.

Thermal Design Impacts Long-Term Reliability

High-frequency and high-power RF amplifiers require carefully designed cooling, chassis structure and airflow or water-cooling paths.

VSWR Mismatch Can Damage RF Systems

Antenna mismatch, load variation or incorrect system connection can create reflected power, making VSWR protection essential.

Standard Catalog Models May Not Fit

Many microwave systems require custom frequency coverage, power levels, connectors, control interfaces or mechanical structures.

Buyers Need Measured Data, Not Only Catalog Values

Engineering buyers often need output power, gain, harmonics, spurious, VSWR and thermal validation data before technical approval.

// CorelixRF Capability

Factory-Direct High-Frequency RF Amplifier Support

CorelixRF supports high-frequency RF amplifier projects through datasheet-based review, 6–18 GHz and 18–40 GHz page routing, factory testing and custom engineering support for system-level integration.

Wide Frequency Coverage

Datasheet-supported 6–18 GHz options and dedicated 18–40 GHz microwave page routing, with other high-frequency windows handled by data request.

CW Solid-State Platforms

GaN-based solid-state RF amplifier platforms designed for continuous-wave output, RF testing, communication systems and microwave integration.

Tested Before Shipment

Output power, gain, gain flatness, harmonics, spurious, VSWR and thermal performance can be validated according to project requirements.

Custom Engineering Support

Frequency range, output power, RF connector, control interface, cooling method and mechanical structure can be customized for project needs.

// Datasheet-Based Product Range

High-Frequency RF Amplifier Range Based on Available Datasheet Families

This page is structured around available high-frequency datasheet families. The 6–18 GHz CRF-PA-6000M18000M series is the clearest wideband product family, while 18–40 GHz and other high-frequency requirements are reviewed through the dedicated page or project-based data request.

// Range Summary

Datasheet-Supported High-Frequency Amplifier Directions

Available power class depends on operating band, bandwidth, output connector, cooling method and chassis configuration. Use this summary to decide whether to open a dedicated page or submit a data request.

Operating Range	Datasheet Family / Direction	Page Action
6–18 GHz	CRF-PA-6000M18000M series; available power classes from 10W to 1000W.	Dedicated 6–18 GHz page available.
18–40 GHz	K / Ka-band microwave amplifier review for high-frequency test and system requirements.	Dedicated 18–40 GHz page available.
S / C-Band Options	Project-specific high-frequency windows reviewed by requested band, output power and connector.	Data request / engineering review.
Band-Specific GHz	Narrowband or custom-frequency amplifier direction for focused bandwidth and integration limits.	View narrowband options or request review.

Do not apply one power range to all high-frequency bands. For example, the 6–18 GHz family includes datasheet-supported 10W to 1000W classes, while 18–40 GHz and K / Ka-band configurations require band-specific confirmation.

View 6–18 GHz Series View 18–40 GHz Series

High-frequency RF power amplifier validation setup

// Datasheet-Based RF Amplifier Review

// Core Datasheet Family

6–18 GHz CRF-PA-6000M18000M Wideband RF Amplifier Series

The 6–18 GHz family is the main datasheet-supported high-frequency series on this page. It includes compact, rack-mount and higher-power system configurations with different connector, supply and control options.

Power Class	Typical Configuration	Datasheet Notes
10W / 16W	Mini chassis, SMA-F input/output, RS485, air cooling.	Compact low-power 6–18 GHz amplifier options.
25W–160W	19" 3U / 4U rack options, N-F connectors, RS485 or RS485 / LAN.	Standard rack-level wideband configurations.
200W–300W	19" 6U class, N-F input, WRD650 output, RS485 / LAN, AC supply.	Higher-power wideband microwave amplifier systems.
400W–1000W	Project chassis / TBD mechanics, WRD650 output, AC 380V class supply, RS485 / LAN.	High-power configurations require thermal and installation review.

Available listed power classes include 10W / 16W / 25W / 30W / 40W / 50W / 80W / 120W / 160W / 200W / 250W / 300W / 400W / 500W / 1000W. Final datasheet, mechanical file and test data should be requested by exact power class.

View 6–18 GHz Page

6 to 18 GHz RF amplifier testing with instruments

// 6–18 GHz Wideband RF Amplifier Validation

// K / Ka-Band Direction

18–40 GHz Microwave RF Amplifier Review

18–40 GHz requirements should be reviewed on the dedicated page or through data request. Output power, connector, cooling path and mechanical structure need confirmation before datasheet selection.

Range	Review Focus	Next Step
18–40 GHz	K / Ka-band microwave amplifier requirements, output power target and test conditions.	Open the dedicated 18–40 GHz page.
26.5–40 GHz	Ka-band focused review where connector, cooling and mechanical design are critical.	Submit K / Ka-band data request.

View 18–40 GHz Page

Microwave RF amplifier chassis and connectors

// K / Ka-Band Amplifier Data Review

// Representative Datasheet Families

Representative High-Frequency Amplifier Paths

Use these cards as routing points. 6–18 GHz and 18–40 GHz have dedicated pages; other bands should be handled through data request, narrowband options or custom amplifier review.

// 6–18 GHz

Low-Power 6–18 GHz Options

Example10W / 16W

FormatMini chassis / SMA-F / RS485

View 6–18 GHz Series

// 6–18 GHz

Rack-Mount 6–18 GHz Options

Classes25W–160W

Format19" 3U / 4U, N-F, RS485 / LAN

View 6–18 GHz Series

// 6–18 GHz

High-Power 6–18 GHz Options

Classes200W–1000W

OutputWRD650, AC supply, RS485 / LAN

View 6–18 GHz Series

// 18–40 GHz

K / Ka-Band Microwave Options

Range18–40 GHz / Ka-band review

FocusPower, connector, cooling and test data

View 18–40 GHz Series

// Custom Development

Custom High-Frequency RF Amplifier Development

CorelixRF supports custom microwave amplifier development for projects requiring non-standard frequency coverage, output power, gain, RF connectors, cooling methods, control interfaces, mechanical structure or system-level integration.

RF amplifier installed in custom chassis with cooling structure

// Custom Integration — Chassis & Cooling Structure

Frequency Range

Custom frequency coverage based on system requirements.

Output Power

Power levels can be reviewed according to bandwidth, frequency and thermal design.

Gain Level & Flatness

Gain can be configured to support system-level RF chain requirements.

RF Connector Type

SMA, N-type, 7/16 and other connector options can be reviewed based on frequency and output power.

Control Interface

RS485, LAN and optional GPIB or project-specific control interfaces.

Cooling Method

Forced air cooling, water cooling or custom thermal design depending on power level.

Mechanical Structure

Module-level, rack-mounted or custom enclosure structures for OEM integration.

Protection Design

VSWR, over-temperature, over-voltage and over-drive protection can be supported.

Requirement Review → Engineering Proposal → Prototype / Sample → RF Testing → Project Delivery

Explore Custom RF Amplifier Options

// Validation Protocol

Factory Testing for High-Frequency Amplifiers

CorelixRF validates high-frequency RF amplifiers before shipment to help engineering buyers reduce sourcing risk and confirm performance before system integration.

// 01

Output Power vs. Frequency Test

Verifies output capability across the target frequency band instead of only at a single frequency point.

// 02

Gain Flatness Verification

Confirms gain variation across the operating band for better RF chain stability and repeatability.

// 03

Harmonics and Spurious Test

Checks output signal quality and helps reduce unwanted emissions in test or system environments.

// 04

VSWR / Protection Check

Verifies amplifier protection behavior under mismatch or reflected power conditions.

// 05

Thermal and Cooling Validation

Confirms cooling performance under operating conditions, especially for high-power microwave platforms.

// 06

Aging / Burn-in Test

Long-duration operating tests can be performed according to project requirements.

RF laboratory factory testing environment with amplifiers under validation

// Factory RF Test Lab View Factory Testing Capability

// Use Cases

Applications for Microwave & High-Frequency RF Amplifiers

CorelixRF high-frequency amplifier platforms support RF test, microwave communication, SATCOM-related development, radar and RF sensing, EMC systems and OEM front-end integration.

RF Test & Measurement

Laboratory RF testing, system validation, signal chain evaluation and instrument-based test platforms.

Related RF Systems →

Microwave Communication Systems

Microwave communication links, high-frequency RF front ends and system-level amplification.

Related RF Systems →

SATCOM Uplink / Downlink Testing

Ku, K and Ka-band related SATCOM testing and RF front-end validation platforms.

View K / Ka Platform →

Radar & RF Sensing Development

Radar front-end development, RF sensing platforms and high-frequency signal chain testing.

EMC / Immunity Test Systems

Selected high-frequency EMC or immunity test system requirements for compliance validation.

OEM RF Front-End Integration

Customer equipment integration, custom chassis, connector matching and system-level adoption.

Custom RF Amplifier Options →

// Manufacturing

Factory-Direct RF Amplifier Manufacturing

CorelixRF combines RF design, assembly, testing and project customization under one manufacturing system, helping engineering buyers reduce sourcing risk and improve project integration efficiency.

CorelixRF RF testing lab and assembly workshop

Factory-Direct Supply

Direct manufacturer support helps reduce communication gaps and sourcing uncertainty.

RF Design & Production Under One Roof

RF design, assembly, production and testing are managed within the same manufacturing environment.

S-Band to Ka-Band Amplifier Platforms

High-frequency amplifier platforms cover S, C, X, Ku, K and Ka-band requirements.

Custom Engineering Support

Non-standard frequency, power, connector, cooling and structure requirements can be reviewed.

Unit-Level Measured Data Available

Measured RF data can be supplied for project review where applicable.

NDA-Based Project Review

For integration-sensitive projects, controlled technical communication can be supported under NDA.

Quality Framework

ISO 9001 GJB 9001C

Learn More About CorelixRF View Capability Overview

// Buyer Guide

What to Check Before Selecting a High-Frequency RF Power Amplifier

Choosing a high-frequency RF amplifier requires more than matching frequency and output power. The following checks can help reduce project risk before procurement.

Confirm Full-Band Output Power

Do not compare only nominal output power. Confirm whether the required output power is available across the full operating band.

Check Gain Flatness

Gain flatness affects RF chain stability, calibration accuracy and system repeatability.

Review Harmonics and Spurious Performance

High-frequency amplifiers should be evaluated for both power and output signal quality.

Confirm Connector, Cooling and Chassis Size

RF connectors, power supply, cooling method and mechanical size directly affect system integration.

Ask Whether Measured Test Data Is Available

Measured output power, gain, VSWR, spurious and harmonics data can help reduce technical uncertainty.

Check Protection Functions

VSWR, over-temperature, over-voltage and over-drive protection are important for high-power RF chains.

Choose a Manufacturer That Supports Customization

For project-based procurement, the supplier should support not only samples, but also repeatable production and long-term technical support.

Engineer reviewing RF test data and amplifier validation results

Have a Specific Project?

If your requirement does not match the 6–18 GHz or 18–40 GHz page, use custom amplifier review to confirm frequency, power, connector and cooling feasibility.

Review Custom RF Amplifier Options

// FAQ

FAQ: Microwave & High-Frequency RF Power Amplifiers

This High Frequency page is organized around datasheet-based high-frequency families. The 6–18 GHz CRF-PA-6000M18000M series has a dedicated page and includes multiple power classes from 10W to 1000W. 18–40 GHz K / Ka-band requirements also have a dedicated page, while other high-frequency windows can be reviewed through data request.

Most high-frequency amplifier platforms on this page are CW solid-state RF power amplifiers. Pulsed RF amplifier versions can be reviewed separately when the project requires pulse width, duty cycle, peak power or radar-related operation.

Yes. Datasheets are available upon request for qualified engineering and procurement review. Please provide your target frequency range, output power, application and project stage so our team can send the most relevant information.

Yes. CorelixRF supports custom frequency coverage, output power, gain, RF connector, cooling method, control interface and mechanical structure based on project requirements.

Depending on the project, CorelixRF can support output power, gain, gain flatness, harmonics, spurious, VSWR, thermal performance and control interface verification. Unit-level measured data can be supplied for project review where applicable.

Yes. CorelixRF can support rack-mounted amplifier systems, module-level designs and custom enclosure structures depending on frequency, power, cooling and integration requirements.

Yes. High-frequency amplifier platforms can support RF test and measurement, microwave communication systems, SATCOM-related testing, radar and RF sensing development, EMC/immunity systems and OEM RF front-end integration.

Yes. For integration-sensitive or project-specific requirements, CorelixRF can support NDA-based technical review and controlled datasheet sharing.

// Data Request / Engineering Review

Need a High-Frequency RF Amplifier That Fits Your Band, Power and Integration Conditions?

Share your frequency range, output power target, operating mode, cooling preference, connector requirement and application. CorelixRF will review whether an existing high-frequency platform or a custom microwave amplifier path is more suitable.

Datasheets for this high-frequency category are handled as data requests. This helps the engineering team send the correct document, measured data direction and integration notes instead of a generic public download.

// Start With One Action

Request Datasheet, Measured Data or Engineering Review

Use the same data request popup for datasheets, test data and technical review. The more details you provide, the easier it is to match the correct platform family.

6–18 GHz

Datasheet-supported CRF-PA-6000M18000M series

Data Request

Datasheet + measured data handled through RFQ popup

18–40 GHz

Dedicated K / Ka-band microwave amplifier page

NDA Support

Available for project-sensitive technical review

View 6–18 GHz Series View 18–40 GHz Series

Recommended details: frequency range · output power · CW or pulsed · cooling method · connector · application · quantity · project schedule.