MACOM Announces First Transistor on 4th Generation GaN on Si Process

MACOM Gen4 GaNM/A-COM Technology has introduced the MAGX-100027-100C0P, a wideband transistor that operates from DC to 2.7 GHz. This is the first transistor that has been developed on their proprietary 4th generation GaN on Silicon (GaN on Si) process. This GaN on Si HEMT D-Mode transistor is ideally suited for defense communications, land mobile radio, avionics, wireless infrastructure, ISM applications and VHF/UHF/L/S-band radar.

The MAGX-100027-100C0P supports CW, pulsed, and linear operation with output power levels up to 100 W (50 dBm). Featuring 50 V operation, this device offers CW operation of 18.3 dB gain at 2.45 GHz, and 70% drain efficiency. For pulsed operation, it provides 18.4 dB gain at 2.7 GHz and 71% drain efficiency. This 100% RF tested transistor is available in an industry standard plastic package with bolt down flange.

Delivering performance that rivals expensive GaN on Silicon Carbide (GaN on SiC) at a projected volume production cost structure below that of incumbent LDMOS technology, 4th generation GaN (Gen4 GaN) is positioned to break the final technical and commercial barriers to mainstream GaN adoption. Gen4 GaN delivers greater than 70% peak efficiency and 19 dB gain for modulated signals at 2.7 GHz, which is similar to GaN on SiC technologies, and more than 10 percentage points greater efficiency than LDMOS. It also delivers power density that is more than four times that of LDMOS.

The MAGX-100027-100C0P is an ideal candidate for customers looking to support rugged applications and experience the solid reliability that is offered by GaN solutions. Gen4 GaN products extend the innovation and commercialization trajectories of earlier generations of GaN on Si, which have demonstrated clear, field-proven reliability in harsh environmental conditions for more than five years.

This transistor is now sampling and can be seen at the MACOM booth at EuMW 2015 from September 8 – 10, 2015 in Paris.

Publisher: everything RF
Tags:-   TransistorGaN

MACOM

  • Country: United States
More news from MACOM