11142018Wed
Last updateWed, 14 Nov 2018 11am
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Microsemi 750 Watt GaN on SiC RF Power Transistor Delivers Unparalleled High-power Performance for Aviation Applications

New Device Ideal for Commercial and Military, Ground and Airborne, Secondary Surveillance Radar, and Collision Avoidance Air Traffic Control Equipment

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Microsemi Corporation (Nasdaq: MSCC), a leading provider of semiconductor solutions differentiated by power, security, reliability and performance, today expanded its family of radio frequency (RF) power transistors based on gallium nitride (GaN) high electron mobility transistor (HEMT) on silicon carbide (SiC) technology with a new 750 watt (W) RF transistor. The MDSGN-750ELMV delivers outstanding, highest power performance in a full range of air traffic control and collision avoidance equipment. Targeted applications include commercial secondary surveillance radar (SSR), which is used globally to interrogate and identify aircrafts in airport locales and regional centers within about a 200 mile range.

"Microsemi's reputation as a leader in RF solutions is founded on 30 years of experience, a stellar engineering team, and a dedication to delivering new products that push the envelope in terms of performance and reliability," said David Hall, vice president and general manager of RF Integrated Solutions for Microsemi. "From components to assemblies and custom packaging, we will continue to invest in the technologies and equipment required to further solidify our leadership position and better serve our customers."

The MDSGN-750ELMV transistor delivers unparalleled performance of 750 W of peak power with 17 decibel (dB) of power gain and typical 70 percent drain efficiency when operating at 1030/1090 megahertz (MHz) to provide the most power in one single-ended device of its type covering this band.

In addition, the new RF device is capable of handling the demanding commercial Mode-S ELM (Extended Length Message) pulsing conditions for both the 1030MHz ground based interrogators and 1090MHz airborne transponders and can be used in the output stage of high performance ground. ELM makes air travel safer by facilitating the communication of shared weather and air traffic situational awareness information to aircrafts within a regional locale. It is also ideal for use in commercial air-to-air traffic alert and collision avoidance systems (TCAS) and in IFF (Identify Friend or Foe) systems, which are essential in protecting friendly aircrafts within a specific area.

Key Technical Features:

-- ELM pulsing format - Burst of quantity 48

pulses: 32 us (ON) / 18 us (OFF)

Burst Repetition Period: 24 milliseconds

Long Term Duty Cycle: 6.4 percent

-- Excellent output power: 750 W

-- High power gain: >17.2 decibel minimum

-- Superb drain efficiency 70 percent drain efficiency

-- Drain bias - Vdd: +50 volts

-- Breakdown Voltage (BVdss) >200 volts

-- Low thermal resistance: 0.24 o Celsius per watt

-- Power output temperature stability -40C to +85C: < +/-0.7 decibels

GaN on SiC HEMT provide several advantages over alternative process technologies including higher power performance, bill-of-material cost savings, and a reduced device-size footprint. For example, the MDSGN-750ELMV offers the following benefits:

-- Single-ended design with simplified

impedance matching, replacing lower

power devices that require

additional levels of combining

-- Highest peak power and power gain

for reduced system power stages and

final stage combining

-- Single output stage pair provides

1.5 kilowatt (kW) peak output power

with margin

-- Combining four output stage pairs

delivers a full system >5 kW peak

output power

-- 50 volts bias allows use of existing

power supply rail with reduced DC

current demand

-- Extremely rugged performance

improves system yields

-- Amplifier size is 50 percent smaller

than devices built with silicon

bipolar junction transistors (Si

BJT) or laterally diffused metal

oxide semiconductor (LDMOS) devices

-- Greatly more breakdown voltage

headroom than Si bipolar and Si

LDMOS and the ability to operate at

higher junction temperatures gives

more rugged operation and greater

MTTF

-- Excellent stable over temperature

operation -55C to +85C

In addition to RF components, Microsemi's commercial aviation product portfolio includes: FPGAs; TVS diodes; integrated standard and custom products; integrated circuits; power conditioning and management components and modules; application specific integrated circuits (ASICs); microwave devices and components; high-density memory products; custom semiconductor packaging; and integrated power distribution systems.

Packaging and Availability:

The MDSGN-750ELMV is offered in a single-ended package and is built with 100 percent high-temperature gold (Au) metallization and wires in a hermetically solder-sealed package for long-term reliability.

www.microsemi.com

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