Claims
- 1. An insulated gate bipolar transistor, comprising:
- a first semiconductor layer of a first conductivity type;
- a second semiconductor layer of a second conductivity type adjoining said first semiconductor layer;
- a third semiconductor layer of said first conductivity type formed in said second semiconductor layer, a junction between said second semiconductor layer and said third semiconductor layer terminating at a surface of said second semiconductor layer;
- a fourth semiconductor layer of said second conductivity type formed in said third semiconductor layer, a junction between said third semiconductor layer and said fourth semiconductor layer terminating at a surface of said third semiconductor layer;
- a fifth semiconductor layer of said first conductivity type formed in said second semiconductor layer to surround a region of said second semiconductor layer in which said third semiconductor layer is formed, a junction between said second semiconductor layer and said fifth semiconductor layer terminating at a surface of said second semiconductor layer;
- a sixth semiconductor layer of said first conductivity type formed in said second semiconductor layer without any semiconductor layers of said second conducting type formed therein, a junction between said second semiconductor layer and said sixth semiconductor layer terminating at said surface of said second semiconductor layer, said sixth semiconductor layer being located between said fifth semiconductor layer and said third semiconductor layer;
- a gate electrode formed, via a gate insulating film, at least over a channel region provided by a surface of said third semiconductor layer in a portion of said third semiconductor layer between said second semiconductor layer and said fourth semiconductor layer;
- a source electrode in electrical contact with said third semiconductor layer, said fourth semiconductor layer, and said sixth semiconductor layer; and
- a drain electrode for supplying a drain current through said first semiconductor layer;
- said second semiconductor layer having an impurity concentration and a layer thickness such that, when a voltage is applied across said drain electrode and said source electrode to propagate a depletion region from a p-n junction between said third semiconductor layer and said second semiconductor layer through said second semiconductor layer toward said first semiconductor layer, a critical electric field is established that causes generation of a groat number of electron-hole pairs due to impact ionization of carriers in or near said second semiconductor layer, thereby causing an avalanche breakdown and conduction between said drain electrode and said source electrode, at an applied voltage lower than a drain-source voltage at which said depletion region reaches said first semiconductor layer through said second semiconductor layer, said applied voltage being equal to or lower than a critical voltage that causes generation of a great number of electron-hole pairs due to impact ionization of carriers in or near said second semiconductor layer below a p-n junction between said fifth semiconductor layer and said second semiconductor layer.
- 2. An insulated gate bipolar transistor according to claim 1, further comprising:
- a seventh semiconductor layer of said second conductivity type disposed at or near a p-n junction between said first semiconductor layer and said second semiconductor layer, said seventh semiconductor layer having an impurity concentration higher than an impurity concentration of said second semiconductor layer, and said seventh semiconductor layer being patterned so as to leave a contact surface between said first semiconductor layer and said second semiconductor layer for transferring carriers therethrough.
- 3. An insulated gate bipolar transistor according to claim 2, wherein said seventh semiconductor layer has a cyclically repeated pattern at or near said p-n junction between said first semiconductor layer and said second semiconductor layer.
- 4. An insulated gate transistor according to claim 2, wherein said seventh semiconductor layer has a pattern of a net.
- 5. An insulated gate transistor according to claim 2, wherein said seventh semiconductor layer has a pattern of stripes.
- 6. An insulated gate transistor according to claim 1, wherein said drain electrode is in electrical contact with said first semiconductor layer only.
- 7. An insulated gate bipolar transistor, comprising:
- a first semiconductor layer of a first conductivity type;
- a second semiconductor layer of a second conductivity type adjoining said first semiconductor layer;
- a third semiconductor layer of the first conductivity type formed in said second semiconductor layer, a junction between said second semiconductor layer and said third semiconductor layer terminating at a surface of said second semiconductor layer which does not adjoin said first semiconductor layer;
- a fourth semiconductor layer of said second conductivity type formed in said third semiconductor layer, a junction between said third semiconductor layer and said fourth semiconductor layer terminating at a surface of said third semiconductor layer;
- a fifth semiconductor layer of said first conductivity type formed in said second semiconductor layer to surround a region of said second semiconductor layer in which said third semiconductor layer is formed, a junction between said second semiconductor layer and said fifth semiconductor layer terminating at a surface of said second semiconductor layer which does not adjoin said first semiconductor layer;
- a sixth semiconductor layer of said first conductivity type formed in said second semiconductor layer without any semiconductor layers of said second conducting type formed therein, a junction between said second semiconductor layer and said sixth semiconductor layer terminating at said surface of said second semiconductor layer, said sixth semiconductor layer being located between said fifth semiconductor layer and said third semiconductor layer;
- a gate insulating film formed over at least a channel region provided by a surface of said third semiconductor layer in a portion of said third semiconductor layer between said second semiconductor layer and said fourth semiconductor layer;
- a gate electrode formed on said gate insulating film;
- a source electrode in electrical contact with said third semiconductor layer, said fourth semiconductor layer, and said sixth semiconductor layer; and
- a drain electrode in electrical contact with said first semiconductor layer;
- an impurity concentration of said second semiconductor layer and a layer thickness of said second semiconductor layer between said first semiconductor layer and said third semiconductor layer both being such that an avalanche breakdown and conduction is caused from said drain electrode to said source electrode when a first reverse bias voltage is applied across said drain electrode and said source electrode, said first reverse bias voltage being lower than a second reverse bias voltage at which a depletion region in said second semiconductor layer extends from said third semiconductor layer to said first semiconductor layer.
- 8. An insulated gate bipolar transistor according to claim 7, wherein said impurity concentration and said layer thickness of said second semiconductor layer are such that said first reverse bias voltage is lower than or equal to a third reverse bias voltage at which an avalanche breakdown and conduction is caused from said second semiconductor layer to said fifth semiconductor layer.
- 9. An insulated gate bipolar transistor according to claim 7, further comprising:
- a seventh semiconductor layer of said second conductivity type disposed at or near a p-n junction between said first semiconductor layer and said second semiconductor layer, said seventh semiconductor layer having an impurity concentration higher than an impurity concentration of said second semiconductor layer, and said seventh semiconductor layer being patterned so as to leave a contact surface between said first semiconductor layer and said second semiconductor layer for transferring carriers therethrough.
- 10. An insulated gate bipolar transistor according to claim 9, wherein said seventh semiconductor layer has a cyclically repeated pattern at or near said p-n junction between said first semiconductor layer and said second semiconductor layer.
- 11. An insulated gate transistor according to claim 9, wherein said seventh semiconductor layer has a pattern of a net.
- 12. An insulated gate transistor according to claim 9, wherein said seventh semiconductor layer has a pattern of stripes.
- 13. An insulated gate transistor according to claim 7, wherein said drain electrode is in electrical contact with said first semiconductor layer only.
- 14. An insulated gate transistor according to claim 8, wherein said drain electrode is in electrical contact with said first semiconductor layer only.
Priority Claims (1)
Number |
Date |
Country |
Kind |
5-76759 |
Apr 1993 |
JPX |
|
CROSS-REFERENCE TO RELATED APPLICATIONS
This is a continuation-in-part application of application Ser. No. 08/221,002, filed Apr. 1, 1994, now abandoned, the contents of which are incorporated herein by reference.
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Non-Patent Literature Citations (2)
Entry |
Muller et al. "Device Electronics for IC's," p. 204, 1986 |
Laska et al. "A 2000 V Non-Punchthrough IGBT with High Ruggedness", Solid-State Electronics vol. 35, No. 5, pp. 681-685 no date. |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
221002 |
Apr 1994 |
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