Process and Device Simulation of SAW Temperature Sensors Compatible with 1 µm CMOS Technology

N. Belkhelfa, R. Serhane
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Abstract

Process and device simulation of a surface acoustics wave (SAW) temperature sensor based AlN material as piezoelectric film, grown on Si wafer and patterned with Al electrodes, is described. CMOS 1 µm process is the process used to simulate a SAW sensor with number of IDT electrodes pairs Np = 16 using Silvaco software; fabrication steps inside the cleanroom are also described. The Athena Silvaco module is used for technological process simulation and the Atlas module is used to characterize the sensor in terms of electrical potential and electric field distribution under IDTs. IDS = f (VDS) simulation curves are compared to those issued from experimental characterizations performed on PMOS and NMOS transistors realized by 1 µm CMOS technology. The mask needed for SAW realization is designed. In order to choose the best sensor to manufacture, two SAW sensors with Np = 16 are characterized using Comsol multiphysics. Their IDTs length “a” and spacing “b” are 2 µm for the first sensor and 3 µm for the second one, which corresponds to 600 MHz and 400 MHz resonance frequencies respectively. The mechanical displacement field at the center frequency of the 3 µm structure and the reflection coefficients (S11) of both structures are determined to deduce the piezoelectric response. Afterwards, the SAW temperature sensors are studied in the temperature range extending from −25 °C to 200 °C; their sensitivities are evaluated at 19.10 ppm/°C and 23.53 ppm/°C for 600 MHz and 400 MHz devices respectively.
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兼容1µm CMOS技术的SAW温度传感器的工艺与器件仿真
本文描述了一种基于AlN材料的表面声波(SAW)温度传感器的工艺和器件仿真。CMOS 1µm工艺是使用Silvaco软件模拟具有IDT电极对数Np = 16的SAW传感器的工艺;还描述了洁净室内的制造步骤。Athena Silvaco模块用于工艺过程仿真,Atlas模块用于表征传感器在idt下的电位和电场分布。将IDS = f (VDS)仿真曲线与采用1µm CMOS技术实现的PMOS和NMOS晶体管的实验表征曲线进行了比较。设计了SAW实现所需的掩模。为了选择最好的传感器来制造,使用Comsol多物理场对两个Np = 16的SAW传感器进行了表征。第一个传感器的idt长度“a”为2µm,间距“b”为3µm,分别对应600 MHz和400 MHz的谐振频率。通过确定3µm结构在中心频率处的力学位移场和两种结构的反射系数(S11)来推导压电响应。然后,对SAW温度传感器在- 25°C到200°C的温度范围内进行了研究;对600 MHz和400 MHz器件分别在19.10 ppm/°C和23.53 ppm/°C下进行灵敏度评估。
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