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Integrated Nitride Based HighPower Circuits
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Integrated Nitride Based High-Power Circuits. III-N ... i-SiC or Sapphire. Pd/Ag/Au. GaN. AlN. Pd/Ag/Au. AlGaN. S. G. D. Typical AlGaN/GaN HFET characteristics: ... – PowerPoint PPT presentation
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Title: Integrated Nitride Based HighPower Circuits
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Integrated Nitride Based High-Power Circuits
G. Simin Dept of EE, USC Photonics and
Microelectronics Lab.
OUTLINE
- III-N Material Advantages
- Energy Band Engineering/Heterostructure
Advantages - Advanced Insulated Gate III-N Devices
- Integrated High-Power Circuits Development
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Integrated Nitride Based High-Power Circuits
III-N Material Advantages
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Integrated Nitride Based High-Power Circuits
III-N Material Advantages
High breakdown voltage
Easy heat management
High powers
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Integrated Nitride Based High-Power Circuits
III-N Material Advantages
High electron velocity high-speed circuits
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Integrated Nitride Based High-Power Circuits
III-N Material Advantages
c is thermal conductivity EB is breakdown field m
is low field mobility vs is saturation
velocity eo is dielectric constant
Figure of merit for high frequency/high power
applications
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Integrated Nitride Based High-Power Circuits
III-N Material Advantages Energy Band
Engineering/Heterostructure Advantages
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Integrated Nitride Based High-Power Circuits
The band structure of AlGaN/GaN heterojunction
provides 10 times more space for electrons as
compared to AlGaAs/GaAs
Extremely high 2D electron gas concentration -
high current densities
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Integrated Nitride Based High-Power Circuits
The polarization charges in GaN are record high
Induced 2DEG
High 2DEG densities can be achieved without
doping higher breakdown voltages
The maximum currents in III-N based HFETs (1 2
A/mm) are 10 times higher than those of GaAs -
based devices
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Typical III-N based HFET structure and design
- Typical AlGaN/GaN HFET characteristics
- Ns (1-2)x1013 cm-2
- m 1500-2000 cm2/V-s
- IDS 1-2 A/mm
- VBD 70-100 V
- PRF 5 10 W/mm
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Integrated Nitride Based High-Power Circuits
- III-N Material Advantages
- Energy Band Engineering/Heterostructure
Advantages - Advanced Insulated Gate III-N Devices
- Integrated High-Power Circuits Development
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Insulated Gate High-Power HFETs
MOSHFET (SiO2 )
HFET
- Large negative/positive gate voltage swing
- Max currents almost doubled
- High temperature stability
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Nitride Advantages for Electronic Devices
Properties
Advantages
- High mobility
- High saturation velocity
- High sheet carrier concentration
- High breakdown field
High power
Heat handling capability
- Decent thermal conductivity
- Growth on SiC substrate
- Chemical inertness
- Good ohmic contacts
- Temperature stability
Reliability
Insulated Gate Design
- SiO2/AlGaN high quality interface
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MOSHFET IC Development High power switch AC/DC
converter
Circuit design
CCD Image of 1 mm gate IC
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High power switching using III-N MOSHFETs
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MOSHFET MMIC Development
0.25 mm gate MMIC p-type RF switch 0 10 GHz
(USC 2003)
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MOSHFET MMIC Development
0.25 mm gate MMIC p-type RF switch 10 GHz (USC
2003)
Saturation power gt 20W/mm (Estimated 35-40 W/mm)
System input power limit
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