The impact of drift region length on total ionizing dose effects on LDMOSFET

IF 1.4 4区物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Solid-state Electronics Pub Date : 2025-04-12 DOI:10.1016/j.sse.2025.109126

Shun Li, Hongliang Lu, Jing Qiao, Ruxue Yao, Yutao Zhang, Yuming Zhang

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引用次数: 0

Abstract

The adjustment of drift region length increases the design flexibility of laterally diffused metal oxide semiconductor field effect transistor (LDMOSFET) characteristics, such as breakdown voltage and on-resistance. However, its impact on the total ionizing dose (TID) effects on the device cannot be ignored. The changes in threshold voltage (

V_{th}

), transconductance (g_m), drain current (

I_{d}

), and on-resistance (R_on) of N-channel LDMOSFET (NLDMOSFET) with two different drift region lengths after TID irradiation were studied in this article. We found that the shift of

V_{th}

and g_m after irradiation was almost identical for both devices, whereas there was a noticeable difference in the shift of

I_{d}

and R_on. The influences of traps and interface states in gate oxide and field oxide on device characteristics were discussed through technology computer-aided design (TCAD). Ultimately, we discovered that the degradation of

V_{th}

after irradiation was primarily related to the gate oxide, while the degradation of drain current in linear region (

I_{dlin}

) after irradiation was mainly related to the drift region. The degradation of g_m and R_on were related to the degradation of

V_{th}

and

I_{d}

. Although the long drift region is beneficial to the breakdown and power characteristics of LDMOS devices, it causes a significant deterioration in the TID effect, which is worth considering in the design of devices and circuits applied in radiation environment.

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来源期刊

Solid-state Electronics 物理-工程：电子与电气

CiteScore

3.00

自引率

5.90%

发文量

212

审稿时长

3 months

期刊介绍： It is the aim of this journal to bring together in one publication outstanding papers reporting new and original work in the following areas: (1) applications of solid-state physics and technology to electronics and optoelectronics, including theory and device design; (2) optical, electrical, morphological characterization techniques and parameter extraction of devices; (3) fabrication of semiconductor devices, and also device-related materials growth, measurement and evaluation; (4) the physics and modeling of submicron and nanoscale microelectronic and optoelectronic devices, including processing, measurement, and performance evaluation; (5) applications of numerical methods to the modeling and simulation of solid-state devices and processes; and (6) nanoscale electronic and optoelectronic devices, photovoltaics, sensors, and MEMS based on semiconductor and alternative electronic materials; (7) synthesis and electrooptical properties of materials for novel devices.