Frequency
Microsemi Expands S-Band RF Power Transistor Family to Include High-Performance GaN-on-SiC Devices Continues to Advance Transistor Technology to Enable Next-Generation Pulsed Radar and Other Mission-Critical Systems
Microsemi Corporation has expanded its family of S-band RF power transistors to include devices that use advanced gallium nitride (GaN) process technology on a silicon carbide (SiC) substrate. The company's GaN-on-SiC high-pulsed power transistors deliver industry-leading peak power and power gain for radar systems operating in the 2.7 GHz to 3.5 GHz frequency band.
ThisMicrosemi has leveraged its industry-leading expertise in S-band RF power transistors to create a family of GaN-on-SiC solutions that are tailored to support the requirements of next-generation systems requiring higher power, better efficiency, and wider bandwidth than is possible using conventional silicon or SiC process technologies. For applications operating in frequency bands up to 20GHz, the wide bandgap material properties of GaN-on-SiC technology enable smaller systems with improved voltage, gain, broadband performance, drain efficiency, and long-term reliability.
Microsemi's new GaN-on-SiC power transistors complement the company's extensive family of Silicon BJT, RF MOSFET (VDMOS) and RF NPN power transistors, including SiC SIT devices that provide superior performance in high-power UHF Band pulsed radar applications operating at frequencies up to 450 MHz. Microsemi also uses GaN technology for a family of Enhancement Mode GaN field-effect transistors (FETs) used in satellites and other military power conversion, point-of-load, and high speed switching applications.
Product Details
Microsemi's GaN-on-SiC devices feature drain breakdown voltage well above 350 Volts (V), enabling them to operate with a drain bias of 60 V while delivering significantly higher reliability than devices manufactured using laterally diffused metal oxide semiconductor (LDMOS) technology. The higher drain bias improves peak power output while yielding more user-friendly impedance levels and simplified circuit-matching requirements across the full system bandwidth. Microsemi's GaN-on-SiC devices also deliver more than 13dB of power gain and cover 400 MHz of bandwidth.
Microsemi's new power transistors also reduce system size. As an example, the company's 2729GN-270 transistor replaces a conventional three-stage Si BJT transistor amplifier consisting of a driver transistor plus one output pallet with two 150W transistors. This substantially reduces system size and complexity while improving system power and efficiency.
Microsemi has released two products for each of three frequency bands:
* 2.7-2.9GHz Band for air traffic control applications (pulse format: 100 us, 10 percent; power gain: 13 ~ 14dB typical; efficiency of 55 to 60 percent)
* 2729GN-270 — 280 W power (typical)
* 2729GN-150 — 160 W power (typical)
* 2.7-3.1GHz Band for air traffic control applications (pulse format: 200 us, 10%; power gain: 12 ~13 dB typical; efficiency of 50 to 55 percent)
* 2731GN-200 — 220 W power (typical)
* 2731GN-110 — 120 W power (typical)
* 3.1-3.5GHz Band for airborne tracking applications (pulse format: 300 us, 10%; power gain: 11 ~ 12 dB typical; efficiency of 45 to 50 percent)
* 3135GN-170 — 180 W power (typical)
* 3135GN-100 — 115 W power (typical