High-stable low-loss microwave diode of nanocrystalline embedded single crystal epitaxial silicon carbide

A technology of epitaxial silicon carbide and single crystal silicon carbide, which is applied in the direction of electrical components, circuits, semiconductor devices, etc., to achieve the effects of reduced Irrm, reduced junction capacitance, and stable thermionic emission mechanism
CN104701385AActive Publication Date: 2015-06-10宁波致鼎新材料科技有限公司
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Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
宁波致鼎新材料科技有限公司
Publication Date
2015-06-10

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Abstract

The invention discloses a high-stable low-loss microwave diode of nanocrystalline embedded single crystal epitaxial silicon carbide and a technique. The structure of the high-stable low-loss microwave diode is: (P+)4H-nc-SiC / [(P-)4H-nc-SiC / (N-)6H-c-SiC] / (N-)6H-c-SiC / [(P+)4H-nc-SiC / (N+)6H-c-SiC]; the high-stable low-loss microwave diode comprises a (P+)4H-nc-SiC / (N+)6H-nc-SiC composite cathode, a (N-)6H-c-SiC base zone, a (P-)4H-nc-SiC / (N-)6H-c-SiC composite transition layer, and a (P+)4H-nc-SiC anode. The high-stable low-loss microwave diode is researched by magnetic control sputtering, RIE (reactive ion etching) and PECVD (plasma enhanced chemical vapor deposition) technologies. The P / N border local area is used up, junction capacity in the appliance is reduced; the diode is applicable to the microwave frequency section; temperature stability and voltage withstanding ability are improved; the reverse process time is shortened and loss is reduced.
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Description

technical field

[0001] The invention belongs to the field of semiconductor microwave devices, and specifically refers to a microwave diode with high stability and low loss in which nanocrystals are embedded in single crystal epitaxial silicon carbide. Background technique

[0002] Crystalline silicon carbide (SiC) has the advantages of large band gap, high critical breakdown field strength, high thermal conductivity, large ratio of electron mobility to hole mobility, high hardness, oxidation resistance and corrosion resistance, etc. High-temperature, high-frequency, high-power and radiation-resistant devices have great potential for wide bandgap semiconductor materials. In power systems, a good rectifier device should have characteristics such as small on-resistance, low leakage current, high breakdown voltage, and extremely fast switching speed, so SiC diodes become candidate devices.

[0003] Communication equipment such as radar urgently needs low-loss high-frequency mic...

Claims

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