Manufacturing method of semiconductor power devices
First Claim
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1. A method of manufacturing a power semiconductor device, comprising:
- growing a first type epitaxial layer (102) on a first type high-concentration silicon substrate (101) and growing an initial oxide film (103) at a thickness ranging from 5000 to 10000;
applying a photoresist (104) on the initial oxide film (103) and performing photolithography and development, thus forming a trench pattern;
etching an exposed area of the initial oxide film (103) using the trench pattern, removing the photoresist (104), forming a screen oxide film (105) for ion implantation on an exposed area of the epitaxial layer (102), and forming a second type body region (106) through ion implantation and a drive-in process;
forming a first type high-concentration source region (107) through ion implantation;
laminating a spacer oxide film and forming a spacer (111) through dry etching;
subjecting a portion of the epitaxial layer (102) corresponding to a trench gate electrode, which is exposed upon formation of the spacer, to trench etching, thus forming a trench hole (112), cleaning an inside of the trench hole (112), growing a sacrificial oxide film (not shown), removing the sacrificial oxide film through wet etching, and then growing a gate oxide film (113);
laminating polysilicon (114), which is doped to a high concentration to form the gate electrode, thus filling the trench hole (112), removing the doped polysilicon through polysilicon etch back or CMP (Chemical Mechanical Polishing) such that the initial oxide film is exposed, and forming an interlayer insulating film (115);
laminating a photoresist for forming a contact pattern through second photolithography, and forming the pattern through the photolithography;
etching the oxide film of each of the gate electrode and the source region, and forming a second type high-concentration source region; and
conducting a process of applying a metal for a high-concentration source and a gate electrode, thus forming a metal electrode (116).
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Abstract
Disclosed is a power semiconductor device, in particular, a trench type power semiconductor device for use in power electronic devices. A method of manufacturing the same is provided. The method of manufacturing the power semiconductor device adopts a trench MOSFET to decrease the size of the device, in place of a vertical type DMOSFET, under a situation in which the cost must be lowered owing to excessive cost competition. As the manufacturing process is simplified and the characteristics are improved, the cost is reduced, resulting in mass production and the creation of profit.
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Citations
5 Claims
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1. A method of manufacturing a power semiconductor device, comprising:
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growing a first type epitaxial layer (102) on a first type high-concentration silicon substrate (101) and growing an initial oxide film (103) at a thickness ranging from 5000 to 10000; applying a photoresist (104) on the initial oxide film (103) and performing photolithography and development, thus forming a trench pattern; etching an exposed area of the initial oxide film (103) using the trench pattern, removing the photoresist (104), forming a screen oxide film (105) for ion implantation on an exposed area of the epitaxial layer (102), and forming a second type body region (106) through ion implantation and a drive-in process; forming a first type high-concentration source region (107) through ion implantation; laminating a spacer oxide film and forming a spacer (111) through dry etching; subjecting a portion of the epitaxial layer (102) corresponding to a trench gate electrode, which is exposed upon formation of the spacer, to trench etching, thus forming a trench hole (112), cleaning an inside of the trench hole (112), growing a sacrificial oxide film (not shown), removing the sacrificial oxide film through wet etching, and then growing a gate oxide film (113); laminating polysilicon (114), which is doped to a high concentration to form the gate electrode, thus filling the trench hole (112), removing the doped polysilicon through polysilicon etch back or CMP (Chemical Mechanical Polishing) such that the initial oxide film is exposed, and forming an interlayer insulating film (115); laminating a photoresist for forming a contact pattern through second photolithography, and forming the pattern through the photolithography; etching the oxide film of each of the gate electrode and the source region, and forming a second type high-concentration source region; and conducting a process of applying a metal for a high-concentration source and a gate electrode, thus forming a metal electrode (116). - View Dependent Claims (2, 3, 4, 5)
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Specification