Features
- 9.0 – 10.0 GHz Operation
- 30 W Typical Output Power
- 27 db Power Gain
- 50-ohm Matched for Ease of Use
- Plastic Surface-mount Package; 6 x 6 mm QFN
CMPA9396025
25 W; 9.3 - 9.6 GHz GaN MMIC Power Amplifier
Wolfspeed’s CMPA9396025S is a GaN MMIC designed specifically from 9.3-9.6GHz to be compact and provide high-efficiency; which makes it ideal for marine radar amplifier applications. The MMIC delivers 25W at 100usec pulse width and 10% duty cycle. The 50-ohm; 3-stage MMIC is available in a plastic surface-mount package.
Products
CMPA9396025
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CMPA9396025
Product SKU | Buy Online | Request Sample | Data Sheet | CAD Model | Recommended For New Design? | Technology | Frequency Min | Frequency Max | Peak Output Power | Gain | Efficiency | Operating Voltage | Form | Package Type |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
CMPA9396025S-AMP1 | Yes | GaN on SiC | 9 GHz | 10 GHz | 35 W | 27 dB | 45% | 40 V | Evaluation Board | Plastic | ||||
CMPA9396025S | Yes | GaN on SiC | 9 GHz | 10 GHz | 35 W | 27 dB | 45% | 40 V | Packaged MMIC | Plastic |
Applications
- Marine Radar
- Military Radar
Documents, Tools & Support
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Documents
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| Technical Papers & Articles | by Jeremy K. Fisher – Donald A. Gajewski – Thomas J. Smith
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Knowledge Center
Wolfspeed RF GaN meets 5G demands on PA design
Wolfspeed GaN on SiC products can replace inefficient silicon parts in 5G cellular transmitter amplifiers, achieving higher linearization, greater power density and improved thermal conductivity.
Improving Pulse Fidelity in RF Power Amplifiers
A radar system designer’s most coveted objectives are achieving a long range, adequate resolution to distinguish objects in close proximity to each other, and the ability to not only determine target velocities but target types in order to help differentiate friendlies from adversaries.A combination of both approaches is essential, and engineers can design for peak power points of the load-pull simulation while also paying attention to other parts of the circuit for baseband signal fidelity.