PATH 01
Custom Frequency & Power
For projects outside the listed 1.0–3.2 GHz range or requiring different output power classes.
Discuss Custom Frequency →
Factory-Direct Pulsed RF Amplifier Platforms
Pulsed RF Power Amplifiers for RF Test, Communication and OEM Integration
Factory-direct pulsed RF amplifier platforms covering listed 1.0–3.2 GHz models from 300 W to 1500 W. CorelixRF also supports custom frequency range, output power, pulse width, duty cycle, pulse frequency, control interface, power supply, cooling structure and OEM integration review.
Standard models are available for engineering review. If your system requires another pulse condition, interface logic, monitoring function or mechanical structure, CorelixRF can review a custom pulsed RF amplifier configuration before production.
1.0–3.2 GHz Listed Platforms
300 W–1500 W Rated Output
Custom Frequency Review
Pulse Width / Duty Cycle Options
RS485 / LAN / RS422 / GPIB Options
OEM Integration Support
Need another frequency or pulse condition? Discuss custom configuration →
1.0–3.2
GHz listed model coverage
300–1500
W rated output classes
1–50 μs
Pulse width, model-dependent
Up to 25%
Duty cycle, model-dependent
RS485 / LAN
RS422 / GPIB options
Custom
Pulse and OEM review
Customization First
Custom Pulsed RF Amplifier Review Paths
Listed models are available for engineering review. If your project requires a different frequency range, output power, pulse width, duty cycle, pulse frequency, interface or mechanical format, CorelixRF can review a custom pulsed RF amplifier configuration.
PATH 02
Pulse Width / Duty Cycle Review
Review pulse width, duty cycle, pulse frequency, rise/fall time and thermal margin before configuration.
Review Pulse Conditions →PATH 03
Control & Monitoring Options
RS485, LAN, RS422, GPIB, pulse control interface, forward/reverse power monitoring and input power detection can be reviewed.
Check Interface Options →PATH 04
OEM Integration Support
Review cabinet size, cooling method, RF connector layout, power supply and system-level integration.
Start OEM Review →
Selection Risk Review
Before You Select a Pulsed RF Power Amplifier
Pulsed RF amplifiers should not be selected by frequency and output power alone. Pulse width, duty cycle, pulse frequency, timing behavior, cooling structure and control interface directly affect real system performance.
01
Pulse Width Must Match Thermal Condition
Pulse width should be reviewed together with duty cycle, pulse frequency, airflow and cooling margin.
02
Rated Power Needs Pulse Context
500 W or 1500 W rated output must be checked under the actual pulse condition and input level.
03
Duty Cycle Changes Cooling Requirements
Higher duty cycle increases thermal load and may affect cabinet size, power supply and airflow design.
04
Control Interface Must Match System Logic
RS485, LAN, RS422 and pulse control interfaces need to match the customer’s system architecture.
05
Power Supply Should Be Confirmed Early
High-power pulsed platforms require early confirmation of supply condition before final production.
06
Mechanical Package Affects OEM Integration
3U, 5U, TBD cabinet format, connector direction and airflow path can affect system installation.
Standard Review Platforms
Standard Pulsed RF Amplifier Model Range
The models below are standard review platforms. If your required frequency, output power, pulse condition, control interface or mechanical format is different, CorelixRF can review a custom pulsed RF amplifier configuration.
High-Power L-Band
1.0–2.0 GHz / up to 1500 W
Suitable for high-power L-band RF output, communication test platforms, RF chain validation and system-level pulsed RF projects.
Request custom review →
Narrowband L-Band
1.2–1.4 GHz / 500 W
Focused L-band pulsed RF amplifier platform for test and measurement, communication verification and OEM rack-mounted integration.
Request custom review →
S-Band Platforms
2.7–3.2 GHz / 300–500 W
S-band pulsed RF amplifier platforms for RF sensing development, communication test, RF front-end validation and custom integration.
Request custom review →
Listed parameters are model-dependent. Final pulse condition, power supply, control interface, monitoring functions and mechanical configuration should be confirmed during engineering review.
Model-level pulse and integration parameters
| Model | Frequency | Rated Output | Gain | Pulse Condition | Control | Structure |
|---|---|---|---|---|---|---|
| CRF-PA-1000M2000M-1500W | 1000–2000 MHz | 1500 W | 62 dB | 1–50 μs / 5% | RS485 / LAN | 19", 5U / 35 kg |
| CRF-PA-1200M1400M-500W | 1200–1400 MHz | 500 W | 57 dB | 50 μs / 10% | RS485 / LAN | 19", 3U / 18 kg |
| CRF-PA-2700M3100M-500W | 2700–3100 MHz | 500 W | 57 dB | 50 μs / 10% | RS485 / LAN | 19", 3U / 18 kg |
| CRF-PA-2900M3200M-300W | 2900–3200 MHz | 300 W | 50 dB | 1–20 kHz / 1–15 μs / 1–25% | RS422 / RS485-3.3V | TBD / 20 kg |
On mobile devices, swipe the table horizontally to view all parameters.
Available Models
Available Pulsed RF Amplifier Models
Use these models as starting platforms for engineering review. Each model can be discussed with custom frequency, pulse condition, monitoring and integration requirements.
Datasheets are inquiry-only on this page.
Select the relevant model below and use the existing inquiry popup trigger. CorelixRF will send the suitable datasheet or model information after reviewing your frequency, power, pulse condition and integration requirement.
Request Suitable Datasheet →
1500W PlatformCRF-PA-1000M2000M-1500W
High-power L-band pulsed RF amplifier platform for test, communication and system-level RF integration where 1500 W rated pulse output is required.
- Frequency1000–2000 MHz
- Rated Output1500 W
- Gain62 dB
- Pulse Width1–50 μs
- Duty Cycle5%
- InterfaceRS485 / LAN
500W PlatformCRF-PA-1200M1400M-500W
500 W pulsed RF amplifier platform for 1200–1400 MHz applications requiring 50 μs pulse width, 10% duty cycle and 19-inch 3U integration.
- Frequency1200–1400 MHz
- Rated Output500 W
- Gain57 dB
- Pulse Width50 μs
- Duty Cycle10%
- InterfaceRS485 / LAN
S-Band PlatformCRF-PA-2700M3100M-500W
S-band pulsed RF amplifier platform covering 2700–3100 MHz with 500 W rated output for project-based RF test and communication system review.
- Frequency2700–3100 MHz
- Rated Output500 W
- Gain57 dB
- Pulse Width50 μs
- Duty Cycle10%
- InterfaceRS485 / LAN
Pulse ControlCRF-PA-2900M3200M-300W
300 W pulsed RF amplifier platform for 2900–3200 MHz projects requiring pulse frequency control, 1–15 μs pulse width and 24 VDC supply.
- Frequency2900–3200 MHz
- Rated Output300 W
- Pulse Frequency1–20 kHz
- Pulse Width1–15 μs
- Duty Cycle1–25%
- InterfaceRS422 / RS485-3.3V
Factory Validation Support
Factory Validation Support for Pulsed RF Projects
A clearer validation block for buyers who need proof, documentation and engineering review before production or shipment.
Testing and validation before shipment
Validation Flow Before Shipment
CorelixRF reviews pulse condition, RF output, thermal margin, control interface and documentation requirements according to the final model configuration and project use case.
TEST 01
Pulse Condition Review
Review pulse width, duty cycle, pulse frequency and timing behavior before configuration.
TEST 02
RF Output Verification
Check rated output power, gain, harmonics, spurious and impedance condition under defined test conditions.
TEST 03
Thermal & Cooling Review
Confirm air cooling structure, cabinet size, airflow path and thermal margin before production.
TEST 04
Control Interface Confirmation
Review RS485, LAN, RS422, pulse control logic or optional GPIB control according to project needs.
DOC 05
Documentation Support
Datasheet, mechanical reference, connector reference and test data can be supplied where applicable. Available documentation depends on the model, test conditions and customer project requirement.
Custom Amplifier Options
Custom Pulsed RF Amplifier Options
Beyond the listed models, CorelixRF can review custom pulsed RF amplifier requirements according to your system architecture, pulse condition, thermal margin and integration format.
OEM / ODM pulsed RF amplifier integration review
Connector / cooling detail
RF test validation
From Pulse Parameters to OEM Integration
Optional functions can include forward / reverse power monitoring, input power detection, GPIB control interface and project-based mechanical or interface adaptation.
CUSTOM 01
Frequency & Output Power
Custom frequency subsets, rated output power and gain targets can be reviewed for project-specific requirements.
CUSTOM 02
Pulse Condition
Pulse width, duty cycle, pulse frequency, rise/fall time and pulse droop can be reviewed according to thermal and RF performance targets.
CUSTOM 03
Control Interface
RS485, LAN, RS422, pulse control interface and optional GPIB control can be reviewed.
CUSTOM 04
Monitoring Functions
Forward/reverse power monitoring, input power detection and protection logic can be discussed for system integration.
CUSTOM 05
Mechanical & Cooling
3U, 5U, TBD cabinet format, cooling method, airflow path and connector layout can be reviewed before production.
CUSTOM 06
OEM / ODM Integration
Review RF connector, power supply, control logic, enclosure format and installation reference for your OEM system.
Need a Non-Standard Pulse Configuration?
Send frequency, power, pulse width, duty cycle, pulse frequency, interface and integration requirements for engineering review.
Application Paths
Applications for Pulsed RF Amplifier Platforms
Use pulsed RF amplifier platforms in controlled RF chains where frequency, pulse condition, output power, protection logic and integration format need engineering review.
APP 01
RF Test & Measurement Systems
Amplified pulse signal chains for controlled RF test environments.
APP 02
Communication System Validation
Pulse amplifier review for communication-related system testing and validation.
APP 03
EMC / Immunity-Related Test Platforms
Review output power, duty cycle and protection margin for test platforms.
APP 04
Controlled RF Interference Simulation
Project-based pulse condition review for controlled RF simulation chains.
APP 05
Aviation-Related RF System Review
Engineering review for aviation-related RF test and system validation requirements.
APP 06
OEM RF Subsystem Integration
Integrate pulsed RF amplifier hardware into larger RF subsystem architectures.
Engineering Workflow
From Requirement Review to Production
A clearer path helps engineering buyers confirm whether a listed model or a custom configuration is more suitable.
01
Requirement Review
Frequency, power, pulse condition, interface, cooling and integration environment are reviewed.
02
Platform Recommendation
CorelixRF checks whether a listed model or custom platform is more suitable.
03
Pulse Condition Confirmation
Pulse width, duty cycle, frequency and thermal margin are confirmed before final configuration.
04
Production & Validation
RF output, protection, interface and cooling condition are checked according to project needs.
05
Shipment Documentation
Datasheet, mechanical reference and test data can be supplied where applicable.
FAQ
Common Questions Before RFQ
Use these answers to prepare frequency, pulse condition, interface and integration details before contacting CorelixRF.
What is a pulsed RF power amplifier?
A pulsed RF power amplifier amplifies RF signals under defined pulse conditions such as pulse width, duty cycle, pulse frequency and timing behavior.
What frequency ranges are available?
Current listed platforms cover 1000–2000 MHz, 1200–1400 MHz, 2700–3100 MHz and 2900–3200 MHz. Custom frequency requirements can be reviewed.
Are pulse width and duty cycle the same for all models?
No. Pulse width, duty cycle, pulse frequency, control interface and power supply are model-dependent. CorelixRF reviews these conditions before recommending a final pulsed RF amplifier platform.
Can CorelixRF customize pulse width and duty cycle?
Yes. Pulse width, duty cycle and related pulse conditions can be reviewed based on the project requirement and thermal design margin.
What information is needed for quotation?
Frequency range, output power, pulse width, duty cycle, pulse frequency, gain, input level, connector, control interface, cooling method, quantity and application environment are recommended.
Do you provide test data before shipment?
Test data and project review files can be supplied where applicable. The available data depends on the model, test conditions and customer project requirement.
Can the amplifier be integrated into an OEM system?
Yes. CorelixRF can support OEM / ODM integration review including mechanical structure, RF connectors, cooling, monitoring functions and control interface.
What protection functions are included?
Listed platforms include protection functions such as over-voltage, over-temperature, over-drive and VSWR protection.
Need a Pulsed RF Amplifier Outside the Listed Models?
Send your frequency range, rated output power, pulse width, duty cycle, pulse frequency, control interface, power supply and integration requirements. CorelixRF will review whether a listed platform or a custom configuration is more suitable.
Recommended information for review
- Frequency range and rated output power
- Pulse width, duty cycle and pulse frequency
- Input level, connector and control interface
- Power supply, cooling method and cabinet requirement
- Quantity, project stage and documentation needs