RF amplifier test bench with laboratory instruments
Factory-Direct RF Power Amplifier Platforms

UHF Power Amplifiers for RF Test, Communication and EMC Systems

Factory-direct UHF and extended UHF RF power amplifier platforms from 30 MHz to 3 GHz, with standard platform families and custom engineering support for frequency, output power, connector, cooling, control interface and OEM integration.

CorelixRF supports UHF amplifier projects from standard platform selection to custom configuration review. Share your target frequency range, output power, duty cycle, connector, cooling method and integration requirements to request datasheets, measured RF data or an engineering recommendation.

30 MHz–3 GHz Coverage 20W–1500W Listed Classes Standard + Custom RF Amplifiers Factory RF Test Data Thermal / Cooling Review OEM / ODM Integration Support
30M–3G
UHF & extended UHF platform coverage
20W–1500W
Platform-dependent power classes
8
Listed amplifier platform families
Custom
Frequency / power / cooling / control review
RF Data
Factory measurement support before shipment
Product Overview

Factory-Direct UHF Amplifier Platforms with Custom Engineering Support

CorelixRF provides UHF and extended UHF RF amplifier platform families from 30 MHz to 3 GHz. Buyers can start from an existing platform range, then confirm frequency window, output power, connector, cooling, control interface, enclosure format and OEM integration requirements through engineering review.

Standard Platform SelectionStart from published UHF, UHF-to-L-band or UHF-to-S-band platform families.
Custom Frequency & Power ReviewReview non-standard frequency windows, local-band optimization and higher-power configurations.
Connector / Cooling / Chassis ConfigurationConfirm RF connector, control, cooling layout, enclosure and installation conditions.
Factory Test Data & DocumentationRequest datasheets, measured RF data and shipment-level validation support where available.
UHF RF power amplifier platform on factory RF test bench
UHF amplifier platform selection · RF test bench · engineering review
Selection Risk Guide

Before You Select a UHF RF Power Amplifier

UHF amplifier selection is not only about nominal frequency and output power. Band coverage, power stability, load condition, antenna matching, thermal design and integration format should be confirmed before RFQ.

Selection RiskWhat to Confirm Before RFQ
Frequency coverage may cross multiple bands
Confirm the exact operating range, not only “UHF”.
Output power varies by platform family
Check power class across the required band and duty condition.
High-power operation creates thermal risk
Confirm cooling, duty cycle, enclosure and airflow before build.
Antenna / load mismatch can affect reliability
Review VSWR, protection and matching conditions.
Connector and control affect integration
Confirm SMA/N-type, RS485/LAN or custom control requirements.
Datasheet values alone may not prove readiness
Request measured RF data and engineering review where available.
Key Platform Parameters

Key Parameters for UHF & Extended UHF RF Amplifier Platforms

Use this table as a fast engineering reference before comparing the detailed platform matrix. Final configuration is confirmed by frequency range, power class, duty cycle, cooling method and integration conditions.

Frequency Coverage30 MHz–3 GHz
Platform Families30–512 / 300–1200 / 300–1700 / 300–2700 / 500–2000 / 800–2500 / 1000–2000 / 1000–3000 MHz
Output Power20W–1500W listed classes, with custom review when requirements differ
RF ConnectorSMA / N-type / project-specific connector review
Control InterfaceRS485 / LAN / custom control review
Cooling MethodAir cooling, high-power thermal review, custom cooling layout
Custom OptionsFrequency, power, housing, cooling, connector, control and OEM integration
Data SupportDatasheet, measured RF data and factory test review where available
Final output power, connector, control interface, cooling method and chassis format vary by frequency range and power class. CorelixRF confirms final configuration through engineering review before quotation or production.
Engineering Selection Table

UHF RF Amplifier Selection Table

Compare frequency range, output power, gain, cooling and RFQ path before selecting a UHF or extended UHF power amplifier platform. Values are platform-level ranges from available CorelixRF datasheets; final configuration is confirmed during engineering review.

Swipe or scroll horizontally to compare platform range, power class, gain, cooling and RFQ action.

Available UHF amplifier platforms | 30 MHz to 3 GHz
Platform RangeFrequency coverage Power ClassesAvailable output power GainTypical platform gain Cooling / SupplyThermal and input power Best FitRecommended project use RFQ ActionOpen inquiry popup
30-512 MHz 30W / 50W / 100W / 150W / 200W 44-54 dB Air cooling / 28 VDC VHF/UHF communication, low-frequency broadband test and integration projects Request 30-512 MHz Review
300-1200 MHz 30W / 50W / 100W / 150W / 200W approx. 44-54 dB External heat sink / 24-32 VDC Core UHF communication, RF module integration and broadband platform validation Request 300-1200 MHz Review
300-1700 MHz 30W / 50W / 100W / 150W / 200W approx. 44-54 dB Air cooling / 28 VDC UHF to L-band broadband amplification and RF front-end development Request 300-1700 MHz Review
300-2700 MHz 30W / 50W / 100W / 150W / 200W 44-54 dB Air cooling / 28 VDC UHF to S-band wideband RF test platforms and integration benches Request 300-2700 MHz Review
500-2000 MHz 25W / 50W / 100W / 125W 44-50 dB Air cooling / AC 220V Rack or platform-level UHF/L-band RF front-end integration Request 500-2000 MHz Data
800-2500 MHz 100W / 200W / 250W / 300W / 400W / 500W / 1000W 50-60 dB Air cooling / AC 220V or 380V Higher-power extended UHF/L-band amplifier systems Discuss High-Power UHF Review
1000-2000 MHz 20W / 50W / 300W / 500W / 1000W / 1500W 43-62 dB Air cooling / AC 220V or 380V High-power L-band RF amplification and system-level integration Request 1000-2000 MHz Review
1000-3000 MHz 200W Factory review Project dependent Extended L/S-band custom platform path where final conditions need review Request Custom Platform Review
Datasheets are available for selected UHF platforms. Use the table as a selection guide, then send your target band and power requirement so CorelixRF can confirm the exact model data, thermal condition and RFQ path.
Selection Guide

How to Select the Right UHF RF Amplifier Platform

Start from the required frequency range, output power, load condition, cooling method, and available installation space. If your requirement is between listed platforms, CorelixRF can review a customized configuration and recommend a practical starting point.

Lower-frequency broadband coverage
30–512 MHz
Core UHF broadband amplification
300–1200 MHz
UHF to L-band transition
300–1700 MHz
UHF to S-band wideband coverage
300–2700 MHz
UHF/L-band front-end integration
500–2000 MHz
Higher output power from extended UHF to L-band
800–2500 MHz
High-power L-band output
1000–2000 MHz
L/S-band extended RF capability
1000–3000 MHz
Custom Engineering Options

Custom Engineering Options for UHF RF Amplifier Projects

When a listed platform is close but not exact, CorelixRF can review a project-specific UHF amplifier configuration. Customization may cover frequency window, output power, connector layout, control interface, cooling structure, enclosure design and OEM RF system integration.

Custom frequency window or local-band optimization
Output power class review by frequency and thermal design
SMA, N-type or project-specific connector layout
RS485, LAN, monitoring or custom control logic
Airflow, fan layout, rack or enclosure-level cooling review
OEM / RF subsystem integration and documentation support
Custom UHF RF amplifier configuration engineering review
Custom UHF configuration · connector · cooling · enclosure review
UHF RF amplifier platform test bench
RF amplifier engineering validation
Factory Testing

Factory Testing & Measurement Support

CorelixRF reviews UHF amplifier projects through a factory testing path that helps buyers confirm output power, gain behavior, VSWR, load condition, thermal handling and shipment documentation before integration.

Output Power Review
Power behavior is checked against the agreed frequency and configuration.
Gain / Flatness Check
Broadband gain behavior can be reviewed where measured data is available.
VSWR / Load Review
Connector, load condition and protection requirements are considered during review.
Thermal / Aging
High-power models require airflow, duty cycle and thermal condition review.
Documentation
Datasheets, measured RF data and integration references can be supplied where applicable.
Packing / Export
Shipment-level inspection and packaging support reduce delivery risk.
UHF RF amplifier factory testing and measured data review
Factory RF testing · measured data · shipment inspection
Application Mini Cases

UHF RF Amplifier Application Mini Cases

Real project-style scenarios for matching frequency range, power class, RF chain and review path before sending a UHF amplifier RFQ.

UHF Communication Test Systems
Mini Case 01

UHF Communication Test Systems

Buyer Need

Validate UHF transmitter, receiver or communication link performance across a defined band.

Engineering Focus

Frequency window, output power, gain, linearity, duty cycle, load condition and cooling.

Recommended Path

Request UHF communication amplifier review.

Telemetry / Data Link RF Chain
Mini Case 02

Telemetry / Data Link RF Chain

Buyer Need

Build or validate a telemetry, data-link or remote RF chain where signal stability and load behavior matter.

Engineering Focus

Band coverage, modulation type, gain control, VSWR protection, connector type and antenna match.

Recommended Path

Discuss telemetry RF chain requirement.

SDR + UHF Amplifier Test Platform
Mini Case 03

SDR + UHF Amplifier Test Platform

Buyer Need

Pair SDR source or output with a UHF amplifier for lab testing, waveform validation or RF system simulation.

Engineering Focus

Input drive level, gain, linearity, waveform type, duty cycle, control interface and test data.

Recommended Path

Review SDR plus amplifier setup.

Amplifier + Antenna Integration
Mini Case 04

Amplifier + Antenna Integration

Buyer Need

Match the UHF amplifier with antenna, cable loss and load condition for a complete RF transmission path.

Engineering Focus

Antenna type, VSWR risk, cable loss, output connector, protection behavior and installation limits.

Recommended Path

Discuss amplifier plus antenna chain.

High-Power UHF / L-Band System
Mini Case 05

High-Power UHF / L-Band System

Buyer Need

Review higher-power UHF, extended UHF or L-band amplifier options for system-level integration.

Engineering Focus

Power class, AC supply, thermal design, enclosure, duty cycle, control interface and acceptance data.

Recommended Path

Request high-power UHF platform review.

Scenario to RFQ

From Application Scenario to RFQ

Use the application context to prepare the engineering details needed before CorelixRF recommends a standard UHF platform or custom review path.

01

Application

Confirm communication test, telemetry, SDR, antenna integration or high-power RF system context.

02

Frequency & Power

Define frequency range, output power, gain target and input drive condition.

03

RF Chain

Review signal source, cable loss, antenna or load, connector and VSWR risk.

04

Thermal & Control

Confirm cooling method, power supply, duty cycle, control interface and mechanical limits.

05

RFQ Review

Send the requirement so CorelixRF can match a standard platform or custom engineering path.

Procurement Checklist

Before Ordering a UHF RF Power Amplifier

A UHF RF amplifier should be selected based on complete system conditions, not only frequency and nominal output power. Before purchasing, confirm the following items with your supplier.

01Does the amplifier cover your full operating frequency range?
02Is the output power tested across the band?
03Is gain flatness suitable for your system?
04Can the supplier provide measured RF data?
05Is the thermal design suitable for your duty cycle?
06Are RF connectors and control interfaces confirmed?
07Can the platform match your antenna or load condition?
08Can the supplier support customization and repeat production?
09Is factory aging test or shipment-level inspection available?
10Can the supplier support OEM integration instead of catalog-only sales?
Factory Capability

Factory Capability & Documentation Support

Use this section as a trust bridge before RFQ: CorelixRF can support UHF amplifier review from engineering confirmation to measured-data review, custom configuration and export delivery.

Source Factory Support

Not a Catalog Reseller — Factory Engineering Review Comes First

CorelixRF reviews frequency range, output power, duty cycle, connector, cooling, control interface and installation conditions before confirming the final UHF amplifier configuration.

01 / EngineeringRequirement Review

Frequency, power, load and integration conditions are checked before recommendation.

02 / DataMeasured RF Support

Datasheet and measured-data review can be provided where available for engineering evaluation.

03 / CustomConfiguration Review

Connector, cooling, control, enclosure and OEM integration can be reviewed by project.

04 / DeliveryExport Handling

Packing, labels, shipment documents and delivery checks support international procurement.

CorelixRF UHF RF amplifier factory test platform
Source factory · RF testing · documentation support
FAQ

UHF RF Amplifier Selection FAQ

Use 30-512 MHz when the project stays in lower VHF/UHF bands. Use 300-1700 MHz when the requirement extends from UHF into L-band. If the band crosses multiple ranges, send the exact frequency window for platform review.
Send frequency range, output power, gain target, input power, waveform, duty cycle, load condition, cooling method, connector type, control interface, quantity and delivery schedule.
Yes. CorelixRF can review cooling, connector, control interface, enclosure, power supply, monitoring and OEM integration requirements based on the selected platform range.
Yes. Some extended UHF/L-band platform families include 500W, 1000W and 1500W classes. Final configuration depends on frequency range, duty cycle, cooling, AC supply and acceptance requirements.
Yes. For RF front-end or test-system projects, send source level, amplifier band, antenna or load details, cable loss and control requirements so the RF chain can be reviewed together.
RFQ

Need a UHF RF Amplifier Platform Matched to Your Frequency, Power and Integration Conditions?

Share your frequency range, output power, gain, connector, power supply, cooling, and integration requirements. CorelixRF can help evaluate the best-fit standard platform or customized RF amplifier solution for your project.

Recommended RFQ information
  • Target frequency range and required output power
  • Gain, input signal level and operating mode
  • Power supply, RF connector and control interface
  • Cooling method, size limits and installation environment
  • Expected quantity and required delivery schedule
Engineering Review

Send Your Requirement for Platform Recommendation

Share your target frequency range, output power, duty cycle, connector, cooling preference, control interface and application. CorelixRF will review whether an existing platform or custom configuration is more suitable.

What CorelixRF can review
  • Best-fit standard platform or custom frequency window
  • Power level, gain, flatness, and RF output condition
  • Connector, control interface, power input, and cooling method
  • Mechanical structure, enclosure limits, and OEM integration path
  • Required datasheet, measured RF data, and shipment test records

Popup RFQ · NDA-friendly review · Factory-direct amplifier support

UHF AMPLIFIER PROJECT REVIEW

UHF RF Amplifier Buyer Path for Test and Integration

UHF amplifier buyers often need a stable RF chain, not only a loose PA. CorelixRF reviews output power, gain control, connector path, load mismatch, thermal design, antenna interface and integration documents before recommendation.

Capability depth

Review UHF and narrowband amplifier capability for 30 MHz to 3 GHz projects.

UHF capability page

Matched RF chain

Connect UHF PA selection with SDR source, antenna path, filters and rack integration.

RF front-end platforms

Buyer checklist

Prepare band, power, duty cycle, voltage, connector, cooling and quantity data before RFQ.

Use RFQ checklist