Thermal stability of SiC Schottky diode anode and cathode metalisations after 1000 h at 350 °c

Donagh O'Mahony; Russell Duane; Tony Campagno; Liam Lewis; Nicolas Cordero; Pleun Maaskant; Finbarr Waldron; Brian Corbett

doi:10.1016/j.microrel.2010.12.008

Thermal stability of SiC Schottky diode anode and cathode metalisations after 1000 h at 350 °c

Donagh O'Mahony
, Russell Duane
, Tony Campagno
, Liam Lewis
, Nicolas Cordero
, Pleun Maaskant
, Finbarr Waldron
, Brian Corbett

Munster Technological University

Research output: Contribution to journal › Article › peer-review

Abstract

The thermal stability of two commercially available silicon carbide Schottky diode types has been evaluated following a 1000 h non-biased storage test under vacuum at 350 °C. The Ti-based Schottky (Anode) contact shows excellent stability over the duration of the test with less than 5% change in either extracted Schottky barrier height or ideality values. The Al die attach metalisation on the anode also shows no evidence of degradation after the test. However, a considerable change in series resistance was observed for both diode types, with up to a factor of 100 measured for one of the diodes. The primary early failure mode is related to degradation of the NiAg Ohmic (cathode) die attach metalisation. Demixing of the NiAg alloy, leading to Ag agglomeration is proposed to be the underlying degradation mechanism involved resulting in delamination of the die attach metalisation and the corresponding series resistance increase.

Original language	English
Pages (from-to)	904-908
Number of pages	5
Journal	Microelectronics Reliability
Volume	51
Issue number	5
DOIs	https://doi.org/10.1016/j.microrel.2010.12.008
Publication status	Published - May 2011

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10.1016/j.microrel.2010.12.008

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title = "Thermal stability of SiC Schottky diode anode and cathode metalisations after 1000 h at 350 °c",

abstract = "The thermal stability of two commercially available silicon carbide Schottky diode types has been evaluated following a 1000 h non-biased storage test under vacuum at 350 °C. The Ti-based Schottky (Anode) contact shows excellent stability over the duration of the test with less than 5\% change in either extracted Schottky barrier height or ideality values. The Al die attach metalisation on the anode also shows no evidence of degradation after the test. However, a considerable change in series resistance was observed for both diode types, with up to a factor of 100 measured for one of the diodes. The primary early failure mode is related to degradation of the NiAg Ohmic (cathode) die attach metalisation. Demixing of the NiAg alloy, leading to Ag agglomeration is proposed to be the underlying degradation mechanism involved resulting in delamination of the die attach metalisation and the corresponding series resistance increase.",

author = "Donagh O'Mahony and Russell Duane and Tony Campagno and Liam Lewis and Nicolas Cordero and Pleun Maaskant and Finbarr Waldron and Brian Corbett",

year = "2011",

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doi = "10.1016/j.microrel.2010.12.008",

language = "English",

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journal = "Microelectronics Reliability",

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T1 - Thermal stability of SiC Schottky diode anode and cathode metalisations after 1000 h at 350 °c

AU - O'Mahony, Donagh

AU - Duane, Russell

AU - Campagno, Tony

AU - Lewis, Liam

AU - Cordero, Nicolas

AU - Maaskant, Pleun

AU - Waldron, Finbarr

AU - Corbett, Brian

PY - 2011/5

Y1 - 2011/5

N2 - The thermal stability of two commercially available silicon carbide Schottky diode types has been evaluated following a 1000 h non-biased storage test under vacuum at 350 °C. The Ti-based Schottky (Anode) contact shows excellent stability over the duration of the test with less than 5% change in either extracted Schottky barrier height or ideality values. The Al die attach metalisation on the anode also shows no evidence of degradation after the test. However, a considerable change in series resistance was observed for both diode types, with up to a factor of 100 measured for one of the diodes. The primary early failure mode is related to degradation of the NiAg Ohmic (cathode) die attach metalisation. Demixing of the NiAg alloy, leading to Ag agglomeration is proposed to be the underlying degradation mechanism involved resulting in delamination of the die attach metalisation and the corresponding series resistance increase.

AB - The thermal stability of two commercially available silicon carbide Schottky diode types has been evaluated following a 1000 h non-biased storage test under vacuum at 350 °C. The Ti-based Schottky (Anode) contact shows excellent stability over the duration of the test with less than 5% change in either extracted Schottky barrier height or ideality values. The Al die attach metalisation on the anode also shows no evidence of degradation after the test. However, a considerable change in series resistance was observed for both diode types, with up to a factor of 100 measured for one of the diodes. The primary early failure mode is related to degradation of the NiAg Ohmic (cathode) die attach metalisation. Demixing of the NiAg alloy, leading to Ag agglomeration is proposed to be the underlying degradation mechanism involved resulting in delamination of the die attach metalisation and the corresponding series resistance increase.

UR - https://www.scopus.com/pages/publications/79953645115

U2 - 10.1016/j.microrel.2010.12.008

DO - 10.1016/j.microrel.2010.12.008

M3 - Article

AN - SCOPUS:79953645115

SN - 0026-2714

VL - 51

SP - 904

EP - 908

JO - Microelectronics Reliability

JF - Microelectronics Reliability

IS - 5

ER -

Thermal stability of SiC Schottky diode anode and cathode metalisations after 1000 h at 350 °c

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