Practical design of 4H-SiC superjunction devices in the presence of charge imbalance

Md Monzurul Alam; Dallas Morisette; James Cooper

Practical design of 4H-SiC superjunction devices in the presence of charge imbalance

Md Monzurul Alam, Dallas Morisette, James Cooper

Electrical and Computer Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In the ideal case, superjunction (SJ) drift regions theoretically exhibit a linear relationship between specific-on resistance R on, sp and blocking voltage V BR, but this requires perfect charge balance between the alternating n and p pillars. If any degree of imbalance exists, the relationship becomes quadratic, similar to a conventional drift region, although with somewhat improved performance. In this work, we analyze superjunction drift regions in 4H-SiC under realistic degrees of charge imbalance and show that, with proper design, a reduction in specific on-resistance of 2~ 10x is possible as long as the imbalance remains less than±20%.

Original language	English
Title of host publication	Unknown book
Pages	563-567
Volume	924
State	Published - 2018

Cite this

@inproceedings{f14c4304c8d640079519e78ba0fe8418,

title = "Practical design of 4H-SiC superjunction devices in the presence of charge imbalance",

abstract = "In the ideal case, superjunction (SJ) drift regions theoretically exhibit a linear relationship between specific-on resistance R on, sp and blocking voltage V BR, but this requires perfect charge balance between the alternating n and p pillars. If any degree of imbalance exists, the relationship becomes quadratic, similar to a conventional drift region, although with somewhat improved performance. In this work, we analyze superjunction drift regions in 4H-SiC under realistic degrees of charge imbalance and show that, with proper design, a reduction in specific on-resistance of 2\textasciitilde{} 10x is possible as long as the imbalance remains less than±20\%.",

author = "Alam, \{Md Monzurul\} and Dallas Morisette and James Cooper",

year = "2018",

language = "English",

volume = "924",

pages = "563--567",

booktitle = "Unknown book",

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TY - GEN

T1 - Practical design of 4H-SiC superjunction devices in the presence of charge imbalance

AU - Alam, Md Monzurul

AU - Morisette, Dallas

AU - Cooper, James

PY - 2018

Y1 - 2018

N2 - In the ideal case, superjunction (SJ) drift regions theoretically exhibit a linear relationship between specific-on resistance R on, sp and blocking voltage V BR, but this requires perfect charge balance between the alternating n and p pillars. If any degree of imbalance exists, the relationship becomes quadratic, similar to a conventional drift region, although with somewhat improved performance. In this work, we analyze superjunction drift regions in 4H-SiC under realistic degrees of charge imbalance and show that, with proper design, a reduction in specific on-resistance of 2~ 10x is possible as long as the imbalance remains less than±20%.

AB - In the ideal case, superjunction (SJ) drift regions theoretically exhibit a linear relationship between specific-on resistance R on, sp and blocking voltage V BR, but this requires perfect charge balance between the alternating n and p pillars. If any degree of imbalance exists, the relationship becomes quadratic, similar to a conventional drift region, although with somewhat improved performance. In this work, we analyze superjunction drift regions in 4H-SiC under realistic degrees of charge imbalance and show that, with proper design, a reduction in specific on-resistance of 2~ 10x is possible as long as the imbalance remains less than±20%.

M3 - Conference contribution

VL - 924

SP - 563

EP - 567

BT - Unknown book

ER -

Practical design of 4H-SiC superjunction devices in the presence of charge imbalance

Abstract

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