Superjunction power device and method of making the same
A technology of power devices and manufacturing methods, applied in semiconductor/solid-state device manufacturing, semiconductor devices, electrical components, etc., can solve problems such as reducing the breakdown voltage of devices, and achieve the goals of reducing leakage, convenient setting, and improving stability and consistency Effect
Active Publication Date: 2019-02-05
SHANGHAI HUAHONG GRACE SEMICON MFG CORP
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Problems solved by technology
figure 2 In the structure shown in the actual situation, the reason why the charge balance rate is set in the coordinate area where the abscissa is greater than the dotted line 301 is to ensure that the device has the final impact resistance. figure 2 The arrow in dashed line 120 corresponds to the charge balance rate N n ×a n p ×a p When the breakdown current flows, it is obvious that the breakdown current passes through the P-type column 103b; the arrow dotted line 121 corresponds to the charge balance rate of N n ×a n >N p ×a p When the breakdown current flows, it is obvious that the breakdown current passes through the N-type pillar; when the breakdown current passes through the P-type pillar 103b, it has greater impact resistance. The charge balance rate is set at N n ×a n p ×a p region, but this reduces the breakdown voltage of the device
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[0053] Such as Figure 4 As shown, it is a schematic structural diagram of a super-junction power device according to an embodiment of the present invention; the super-junction power device according to an embodiment of the present invention includes:
[0054] A semiconductor substrate such as a silicon substrate 1 is formed with an N-type epitaxial layer 2 such as an N-type silicon epitaxial layer 2 on the surface of the semiconductor substrate 1; a plurality of grooves are formed on the N-type epitaxial layer 2, and the grooves are filled with There are P-type pillars 4, and the P-type pillars 4 filled in the grooves and the N-type pillars composed of the N-type epitaxial layers 2 between the grooves are alternately arranged to form a super junction structure.
[0055] The side of the trench is inclined and the width of the bottom of the trench is smaller than the width of the top, so as to facilitate the etching and filling of the trench.
[0056] A doped compensation laye...
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The invention discloses a super-junction power device. A super-junction structure is formed on an N-type epitaxial layer; each groove is filled with a P-type post in the super-junction structure; the side surface of each groove is of an inclined structure to facilitate etching and filling of the groove; a doping compensation layer formed through ion implantation is formed on the side surface of each groove; and the doping concentration of each doping compensation layer in the direction from the top part of the corresponding groove to the bottom part is gradually changed for compensating the influence of the widths of the grooves at different depths on the charge balance of the P-type posts and N-type posts, so that the charge balance of the P-type posts at different depths of the grooves and the adjacent N-type posts is improved to improve the puncture voltage of the super-junction power device. The invention further discloses a manufacturing method of the super-junction power device. The puncture voltage of the super-junction structure with the inclined structures on the side surfaces of the grooves can be improved; and meanwhile, the device can also has good anti-impact ability.
Description
technical field [0001] The invention relates to the field of semiconductor integrated circuit manufacturing, in particular to a super junction (super junction) power device; the invention also relates to a manufacturing method of the super junction power device. Background technique [0002] The super junction structure is composed of alternately arranged N-type pillars and P-type pillars. If the superjunction structure is used to replace the N-type drift region in the vertical double-diffused MOS transistor (Vertical Double-diffused Metal-Oxide-Semiconductor, VDMOS) device, the conduction path is provided through the N-type column in the conduction state, and when the conduction The P-type column does not provide a conduction path; in the off state, the PN column jointly bears the reverse bias voltage, forming a super-junction metal-oxide-semiconductor field-effect transistor (Metal-Oxide-Semiconductor Field-Effect Transistor, MOSFET). The super-junction MOSFET can greatly...
Claims
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IPC IPC(8): H01L29/78H01L29/739H01L29/06H01L29/36H01L21/336H01L21/331
CPCH01L29/0634H01L29/0684H01L29/36H01L29/66333H01L29/66666H01L29/7395H01L29/7827H01L29/7802
Inventor 柯行飞
Owner SHANGHAI HUAHONG GRACE SEMICON MFG CORP