| ID | 原文 | 译文 |
| 42606 | 为了满足电力射频识别 ( RFID) 芯片在-50 ~ 125 ℃ 的工作温区及高灵敏度的应用需求,定制化开发了芯片宽温区范围内高精度的 MOSFET 器件 SPICE 模型, | In order to meet the requirements of the radio frequency identification (RFID) chip inthe working temperature range of -50-125 ℃ and the application of high sensitivity, the high precisionSPICE model of the MOSFET device in a wide-temperature range was customized and developed. |
| 42607 | 该模型在 RFID 芯片关键模块中进行了验证。 | This model was verified in key circuit modules of the RFID chip. |
| 42608 | 对器件尺寸设计、版图设计、电学性能测试、模型参数提取以及验证环节都进行了定制化开发。 | Customized development was carried out indevice size design, layout design, electrical performance testing, model parameter extraction and circuitverification. |
| 42609 | 在器件模型参数提取环节采用了分块建模以及宏模型的建模方式同时提高了大尺寸和小尺寸器件的温度仿真精度。 | Parameters were extracted by the bin model and marco model to improve the simulation accuracy of big and small channel devices in a wide-temperature range. |
| 42610 | 该模型在宽温度范围内阈值电压仿真与实测值差达到了10 mV 以下,饱和电流精度在 5%以下。 | In a wide-temperature range thethreshold voltage simulation error is less than 10 mV, and the saturation current accuracy is less than 5%. |
| 42611 | 环形振荡器的电路仿真精度相比通用模型提升了近50%,带隙基准源电路仿真精度提升了 20 mV。 | The circuit simulation accuracy of the ring oscillator is improved nearly 50% and 20 mV in the bandgapcircuit is enhanced compared with the general model. |
| 42612 | 有机电化学晶体管 ( OECT) 被广泛应用于生物传感领域,制备阵列化器件有利于提高传感器的测试通量,降低制造成本。 | Organic electrochemical transistors (OECTs) are widely used in the field of biosensing.The array devices can improve the test flux of sensor and reduce the manufacturing cost. |
| 42613 | 研究了双极电化学在 OECT 交流电沉积制备中的应用。 | The application ofbipolar electrochemistry in the alternating current (AC) electrodeposition of OECTs was studied. |
| 42614 | 基于扫描电子显微镜和数字源表,探究了交流电压频率对聚 ( 3,4-乙烯二氧噻吩) ∶ 聚 ( 苯乙烯磺酸) ( PEDOT ∶ PSS) 薄膜形貌和 OECT 器件性能的影响。 | Based oncharacterizations of the scanning electron microscope and digital source meter, the influences of the ACvoltage frequency on the morphology of PEDOT ∶ PSS thin films and the performances of OECT deviceswere discussed in detail. |
| 42615 | 实验结果表明,交流电压频率从100 Hz增加到 1 000 Hz 时,PEDOT ∶ PSS 薄膜的宽度从 7. 5 μm 减小到3 μm,器件的最大跨导值从 1. 5 mS 减小到 0. 2 mS,电流开关比从 330 降低到 78,响应时间从 9. 42 ms 下降到 4. 25 ms。 | The experimental results show that when the AC voltage frequency is increased from100 Hz to 1 000 Hz, the width of the PEDOT ∶ PSS thin film is reduced from 7.5 μm to 3 μm, the maximum transconductance of device is reduced from 1.5 mS to 0.2 mS, the current switching ratio is reduced from 330to 78, and the response time is reduced from 9.42 ms to 4.25 ms. |