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RF Hardware Design Files
Application Circuit Designs
Wolfspeed offers time-saving Hardware Reference Designs for some of the most in-demand Gallium Nitride on Silicon Carbide devices in RF systems. The custom Reference Design files below include the Assembly Drawing; BOM; Schematic; and PCB Notes. These files will help allow designers to create rugged and reliable systems with best-in-class power density; performance and efficiency.
Wolfspeed’s Application Engineering team also has a library of additional software reference designs that are implementations of our proprietary LS model; for specific applications; where the design is not built into hardware. These are great “starter designs” to give RF Power Amplifier designers a quick; accurate first look at a device’s potential for that application. Click here to request access to the RF portal and the free library of design tools.
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RF Hardware Design Files
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RF Hardware Design Files
Product SKU | Design Files | Technology | Frequency Min | Frequency Max | Peak Output Power | Gain | Efficiency | Operating Voltage |
|---|---|---|---|---|---|---|---|---|
CMPA0527005F-AMP1-REF | GaN on SiC | 0.5 GHz | 2.7 GHz | 8 W | 15 dB | 50% | 50 V | |
CG2H30070F-AMP2-REF | GaN on SiC | 0.5 GHz | 3 GHz | 48% | 28 V | |||
CG2H40035F-AMP1-REF | GaN on SiC | 0.5 GHz | 3 GHz | 30 W | 11 dB | 50% | 28 V | |
CGHV27060MP-AMP3-REF | GaN on SiC | 0.8 GHz | 2.7 GHz | 60 W | 12 dB | 55% | 50 V | |
CGHV27060MP-AMP4-REF | GaN on SiC | DC | 1 GHz | 60 W | 13.5 dB | 60% | 50 V | |
CMPA0530002S-AMP1-REF | GaN on SiC | 0.5 GHz | 3 GHz | 45% | 28 V | |||
CMPA2060035F-AMP2-REF | GaN on SiC | 2 GHz | 6 GHz | 50 W | 18 dB | 37% | 32 V | |
CG2H40010F-AMP1-REF | GaN on SiC | 0.5 GHz | 55% | 28 V |
Documents, Tools & Support
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Documents
Document Type | Document Name |
|---|---|
| Application Notes | |
| Product Catalog | |
| Sales Terms |
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.
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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.
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