Factory-Direct VHF/UHF RF Power Amplifier Platform

30–512 MHz VHF/UHFRF Power Amplifiers

Factory-direct 30W to 200W RF power amplifier platforms for EMC testing, VHF/UHF communication test benches, broadband RF chains, and OEM low-band RF system integration.

  • 30–512 MHz VHF/UHF coverage
  • 30W / 50W / 100W / 150W / 200W power classes
  • 28 VDC platform
  • Air-cooled module design
  • Datasheet & test data after review
  • OEM / custom sub-band support
Send RF Requirement
STANDARD PLATFORM
CorelixRF 30–512 MHz CRF-PA-30M512M Series RF Power Amplifier
Factory-DirectRF amplifier manufacturer
Power Classes30W–200W standard platform
VHF/UHF Band30–512 MHz coverage
28 VDCPractical system integration
Air CoolingModule-level thermal design
Engineering ReviewDatasheet / test data after requirement check

Best-Fit Applications

Best-Fit Applications for 30–512 MHz RF Amplifiers

This platform is designed for VHF/UHF projects where broadband RF output, practical integration, and engineering documentation are required before quotation or system deployment.

01 // EMC TESTING

EMC Testing & Radiated Immunity

For EMC labs and pre-compliance test setups requiring stable VHF/UHF RF output across low-frequency bands.

EMC TestingRadiated ImmunityPre-Compliance

02 // COMMUNICATION

VHF/UHF Communication Test Bench

For engineering teams validating VHF/UHF communication links, antenna matching, RF front-end behavior, and broadband transmit chains.

VHF/UHFRF BenchAntenna Evaluation

03 // RF LAB

Broadband RF Test Bench

For lab environments requiring repeatable RF output, gain verification, cable-loss review, and 50Ω load testing.

RF Laboratory50Ω LoadRepeatable Output

04 // OEM

OEM Low-Band RF Chain Integration

For system integrators who need module-level RF power stages with 28VDC supply, air cooling, connector review, and mechanical integration support.

OEM IntegrationMechanical ReviewThermal Planning

Standard Platform Selection

30–512 MHz Standard Platform Selection

Select a power class first. Detailed RF data, measured curves, current consumption, VSWR reference, and mechanical drawings can be provided after project requirement review.

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Model Frequency Power Class Platform Best-Fit Use Action
CRF-PA-30M512M-30W 30–512 MHz 30W Compact air-cooled module Lab evaluation / low-power RF bench
CRF-PA-30M512M-50W 30–512 MHz 50W Compact air-cooled module EMC pre-compliance / VHF-UHF testing
CRF-PA-30M512M-100W 30–512 MHz 100W High-power air-cooled module RF test bench / OEM integration
CRF-PA-30M512M-150W 30–512 MHz 150W High-power air-cooled module Higher-power VHF/UHF RF chain
CRF-PA-30M512M-200W 30–512 MHz 200W High-power air-cooled module Broadband RF system validation
Custom Sub-Band Project-defined By review OEM / ODM configuration Sub-band, connector, cooling, mechanical review Send Requirement
Detailed RF performance, current consumption, measured curves, VSWR reference, and mechanical drawings are not published on this page. They can be provided after requirement review to ensure the correct model is matched to your RF chain.
Send RF Requirement

Typical RF Chain

Typical 30–512 MHz RF Chain

A 30–512 MHz amplifier should be selected together with input drive level, gain budget, cable loss, output filtering, antenna/load VSWR, duty cycle, and cooling condition. CorelixRF reviews these RF chain conditions before recommending a standard model or custom sub-band configuration.

The PA is only one stage in the RF chain. A complete requirement helps avoid wrong model selection and makes the quotation faster and more accurate.
01
Signal Generator / SDR Source
Source level and modulation condition review
02
Driver Stage
Gain budget and input drive planning
03
CorelixRF 30–512 MHz PA
Power class and integration review
04
Coupler / Filter
Output filtering and measurement path
05
Antenna or 50Ω Load
Load condition, cable loss and VSWR review

Engineering Data

Engineering Data Available After Requirement Review

To avoid wrong model selection and protect project-specific RF data, CorelixRF provides detailed documents after reviewing the customer’s frequency range, power level, operating mode, and integration conditions.

Datasheet Package

Model-level datasheet can be provided after requirement confirmation.

Measured RF Data

Gain behavior, output power reference, matching reference, and related RF data can be shared for engineering review.

Mechanical Reference

Mechanical outline and connector layout can be provided for integration review.

Test / Validation Reference

Sample test report format and validation scope can be discussed according to project stage.

Discuss My RF Chain

Standard or Custom

Standard Platform or Custom Sub-Band?

Not every project requires full 30–512 MHz coverage. CorelixRF can review whether a standard power class or a custom sub-band configuration is more suitable for the actual RF chain.

Standard 30–512 MHz Platform

  • Full 30–512 MHz coverage
  • EMC / pre-compliance test setup
  • VHF/UHF communication test bench
  • RF laboratory evaluation
  • Standard 30W–200W power class selection

Custom Sub-Band Review

  • 30–88 MHz / 100–400 MHz / 225–400 MHz / 400–512 MHz
  • Special connector or mechanical layout
  • Project-defined thermal design
  • OEM integration project requirements
  • Custom frequency band, control interface, and integration details by review

FAQ

30–512 MHz RF Power Amplifier FAQ

Engineering questions that help customers decide whether to request datasheet, test data, mechanical references, or a custom sub-band review.

Yes. This platform can be reviewed for EMC test benches and pre-compliance setups where stable VHF/UHF RF output is required. Final selection should consider antenna gain, cable loss, duty cycle, load condition, and required field strength.

Selection should start from required output power, operating mode, input signal level, cooling condition, and integration space. CorelixRF can review your RF chain before recommending a standard model.

Detailed RF data, measured curves, current reference, VSWR reference, and mechanical drawings are provided after requirement review to ensure accurate model matching and protect project-specific technical information.

Yes. If your actual operating band is narrower than 30–512 MHz, CorelixRF can review a custom sub-band configuration for system integration.

Yes. Please send your frequency range, output power, application, operating mode, and project stage. The relevant datasheet and available engineering data can be provided for review.

Yes. OEM requirements such as connector layout, control interface, cooling method, mechanical fit, and custom frequency range can be reviewed before quotation.

Please send frequency range, output power, CW or pulse operation, input signal level, supply voltage, cooling method, antenna or load condition, connector requirement, quantity, and project stage.

Mechanical references can be provided after requirement review, especially for OEM integration and system layout confirmation.

RFQ Intake

Send Your 30–512 MHzRF Requirement

To recommend the right standard model or custom sub-band configuration, please share your RF chain and integration conditions.

  • Frequency range and required output power
  • CW or pulse operation and input signal level
  • Cooling method, antenna/load condition, connector requirement
  • Quantity, project stage, and required documents
For datasheet, test data, or mechanical references, please submit the application and basic RF requirement first. This helps us provide the correct document package for your project.

Engineering Review Before Quotation

Use the RFQ form or datasheet request form to receive the right model-level information. Detailed parameters are shared after requirement review instead of being fully published on this page.

Required BasicsName, company, email, country, frequency range, power class, application, quantity.
Helpful DetailsOperating mode, input level, cooling, connector, antenna/load condition, project stage.
Document RequestDatasheet, test data, mechanical reference, or sample report format.
Custom ReviewSub-band, OEM layout, control interface, thermal design, or integration constraints.
Send Requirement for Engineering Review
Suggested RFQ fields: frequency range, output power, application, quantity, CW/pulse mode, input signal level, supply voltage, cooling method, connector requirement, antenna/load condition, project stage, and required document type.