4H-SIC DMOSFET AND SILICON CARBIDE ACCUMULATION-MODE LATERALLY DIFFUSED MOSFET Archana N- 09MQ01 -...
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Transcript of 4H-SIC DMOSFET AND SILICON CARBIDE ACCUMULATION-MODE LATERALLY DIFFUSED MOSFET Archana N- 09MQ01 -...
![Page 1: 4H-SIC DMOSFET AND SILICON CARBIDE ACCUMULATION-MODE LATERALLY DIFFUSED MOSFET Archana N- 09MQ01 - 15/10/2010 PSG COLLEGE OF TECHNOLOGY ME – Power Electronics.](https://reader034.fdocuments.net/reader034/viewer/2022042718/5697c02a1a28abf838cd7d31/html5/thumbnails/1.jpg)
4H-SIC DMOSFET AND
SILICON CARBIDE ACCUMULATION-MODE
LATERALLY DIFFUSED MOSFET
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
1
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SiC
• excellent electrical and thermal properties.• only semiconductor material besides Si on
which a thermal oxide can be grown
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
2
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Materials Property Si SiC-4H GaN
Band Gap (eV) 1.1 3.2 3.4
Critical Field 106 V/cm
0.3 3 3.5
Electron Mobility (cm2/V-sec)
1450 900 2000
Electron Saturation Velocity (106 cm/sec)
10 22 25
Thermal Conductivity (Watts/cm2 K)
1.5 5 1.3
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
3
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Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
4
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STRUCTURE OF POWER MOSFET:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
5
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STRUCTURE OF 4H-SIC DMOSFET :
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
6
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STRUCTURE:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
7
• The MOS channel length is defined by the p-well and n+ implants, and can range from 0.5 μm to 1.5 μm.
• Electron flow : n+ source - inversion layer - implanted p-well
-JFET region - lightly doped n- drift region - drain.
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STRUCTURE OF
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
8
• The blocking voltage of the MOSFET is determined by the doping concentration of the n- epilayer.
• For 1200 V devices, an epilayer with a doping concentration of 6x1015 cm-3 and a thickness of 12 μm can be used.
• A thermally grown oxide layer is typically used as gate dielectric due to its repeatability and stability.
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STRUCTURE
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
9
• Typically, the gate oxide is nitrided in NO or N2O to reduce MOS interface state density, which improves the transconductance of the
MOSFET.
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TRANSFER CHARACTERISTICS:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
10
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OUTPUT CHARACTERISTICS:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
11
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STRUCTURE OFSiC AMLDM:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
12
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STRUCTURE:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
• A thin n-channel region (accumulation-layer) below the gate oxide .
• Normally off device with the entire drain voltage supported by the p/n-drift region.
• Support high forward blocking voltages at zero gate bias with low leakage currents.
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STRUCTURE:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
• A low resistance path for the electron current flow from the source to the drain can be achieved.
• This structure utilizes the buried p-well region as a shield to the influence of a high SiC bulk electric filed on the gate oxide.
• Removes the effect of interface quality on the channel mobility.
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EFECT OF ACCUMULATION LAYER THICKNESS ON OPERATING VOLTAGE AND SPECIFIC ON RESISTANCE:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
15
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TRANSFER
CHARACTERISTICS:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
16
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OUTPUT CHARACTERISTICS:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
17
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OFF STATE CHARCATERISTICS:
Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
18
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Archana N- 09MQ01 - 15/10/2010
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
THANK YOU
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