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Bipolar non-punch-through power semiconductor device

A semiconductor and power-through technology, which is applied in the field of bipolar non-through power semiconductor devices and the manufacture of such power semiconductor devices, can solve problems such as high loss and slowness, and achieve reduced thermal budget, short diffusion time, and short high-temperature gettering Effect

Active Publication Date: 2016-08-10
HITACHI ENERGY SWITZERLAND AG
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Problems solved by technology

[0007] Since the angle (where the thickness of the edge layers 50, 60 decreases) is small (approximately 2º) in order to slowly reduce the electric field towards the lateral edges of the device, and since the base layer depth 51 is chosen to be lower than the first edge layer depth 59 deeper, high losses develop in the inner region 22 (active area) of the device

Method used

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Embodiment Construction

[0041] in figure 2 Shown therein is a bipolar non-punch-through power semiconductor device in the form of a phase-controlled thyristor (PCT) 1 with a blocking voltage of at least 1000V according to the present invention. The device comprises a semiconductor wafer 2 with layers of different conductivity types on which a cathode contact 3 is formed on the cathode side 31 of the wafer and an anode contact 4 is formed on the anode side 41 of the wafer opposite to the cathode side 31. The (n-) doped drift layer 26 is formed in the wafer. The p-doped base layer 5 is arranged on this drift layer 26 towards the cathode side 31. It contacts the cathode contact 3. The base layer 5 is arranged directly adjacent to the drift layer 26, which means that no other intermediate layer of the second conductivity type is arranged between the base layer 5 and the drift layer 26. The base layer 5 and the drift layer 26 are connected to each other, that is, they touch each other. The base layer 5...

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Abstract

Bipolar non-punch-through power semiconductor devices are provided. It comprises a semiconductor wafer (2) and a first electrical contact on a first main side and a second electrical contact on a second main side. The wafer (2) comprises an inner region (22) having a wafer thickness (23), and a termination region (24), which surrounds the inner region (22) and wherein the wafer thickness (23) passes at least on the first main side through the negative beveled and reduced. The semiconductor wafer (2) comprises at least a two-layer structure with layers of different conductivity types: - a drift layer (26) of a first conductivity type, a first layer of a second conductivity type, on the first main side connected directly to the drift layer (26) and contacts a first electrical contact, the first layer extending to the depth of the first layer, and a second layer of the second conductivity type arranged on the first main side to terminate the region (24) until the second layer depth. The second layer depth is greater than the first layer depth, which is at most 45 µm. The doping concentration of the second layer is lower than that of the first layer.

Description

Technical field [0001] The present invention relates to the field of power electronic devices and more specifically to bipolar non-punch-through power semiconductor devices and methods for manufacturing such power semiconductor devices. Background technique [0002] In US 5,710,442 a phase-controlled thyristor (PCT) 10 with a wafer 2 is described, on which a cathode contact 3 is arranged on the cathode side 31. The anode contact 4 is formed on the anode side 41 of the wafer opposite the cathode side 31. Inside the wafer 2, an (n-) doped drift layer 26 is arranged. A p-doped base layer 5 is provided on this drift layer 26 towards the cathode side 31 and contacts the cathode contact 3. The (N+) doped cathode layer 7 and the (p+) short region 8 are embedded in the base layer 5. They also contact the cathode electrode 3. Transverse to the cathode contact 3 and separated from it by the drift layer 26 is the arranged gate contact 95. [0003] On the anode side 41, a p-doped anode la...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L29/06H01L29/747H01L29/87H01L29/861H01L21/329
CPCH01L29/0615H01L29/0661H01L29/102H01L29/66136H01L29/66363H01L29/8613H01L29/0834H01L29/0619H01L29/74H01L29/7432H01L29/87H01L29/06H01L29/747
Inventor J.福贝基M.拉希莫
Owner HITACHI ENERGY SWITZERLAND AG
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