| ID | 原文 | 译文 |
| 41016 | 因此,在目标域标注缺失的情况下,所提出的跨语料库语音情感识别方法具有更好的域不变情感显著特征的提取能力. | Therefore, in the case of the absence of emotion labels of the target domain, the proposed cross-corpus speech emotion recognition method is more beneficial to extracting domain-invariant emotion salient features. |
| 41017 | 为提高可穿戴式医疗芯片的集成度、降低芯片整体功耗和工艺成本,提出了一种多信号可配置的低功耗模拟前端电路. | In order to improve the integration of wearable medical chips and reduce thewholepowerconsumption and the process cost, a multi-signal configurable low-power AFE circuit in standard digital technology is proposed, which mainlyadopts Class-C inverters and full compensated depletion-mode MOS-capacitorsto constitutean instrumentation amplifier with configurable high-pass filtering frequency, a low-power configurable gain amplifier and a low-power LPF with configurable bandwidth. |
| 41018 | 该电路其主要采用了C类反相器和全互补耗尽区MOS电容技术,设计了集成了带有可配置高通滤波功能的仪表放大器、低功耗可配置增益放大器和带宽可配置的低功耗低通滤波器等模块. | In this circuit, Class C inverters and fully complementary depletion region MOS capacitor technology are adopted, and instrument amplifier with configurable high-pass filter function, low-power configurable gain amplifier and low-power low-pass filter with bandwidth configurable module are designed and integrated. |
| 41019 | 该模拟前端电路采用SMIC 0.18μm CMOS工艺设计,仿真结果表明:功耗为52.8μW,CMRR为76.1 dB,输入参考噪声功率谱密度为3.45μV/sqrt(Hz). | The proposed AFE circuit is implemented in SMIC 0.18 μm CMOS process.Simulation results show that the power consumption is 52.8 μW, the CMRR is 76.1 dB, and the input-reference-noise PSD is 3.45 μV/sqrt(Hz). |
| 41020 | 针对传统电荷泵电压损耗严重和输出纹波较高的缺点,本文提出了一种高效低纹波双端输出电荷泵。 | Aiming at the shortcomings of the traditional charge pump with serious voltage loss and high output ripple, a high efficiency low ripple double-ended output charge pump isproposedin this paper. |
| 41021 | 该电荷泵基于传统电荷泵做了结构上的改进,利用栅压驱动,减小输出纹波,达到正反相倍压输出,并设计一款稳定高驱动能力的振荡器电路,振荡器电源由电荷泵输出端直接自给,降低了电压损耗,提高了转换效率。 | Based on the traditional charge pump, drive with gate voltage, the charge pump has been structurally improved to reduce the output ripple and achieve positive and negative voltage doubled output, and design a stable and high-driving oscillator circuit. The power supply of the oscillator is self-sufficient from the output of the charge pump, reducing Voltage loss improves conversion efficiency. |
| 41022 | 电荷泵电路基于0.6μm CMOS工艺进行设计与仿真, | The charge pump circuit is designed and simulated based on the 0.6 μm process. |
| 41023 | 仿真结果表明改进型电荷泵启动稳压时间仅为51μs,在常规电源电压2.8~5 V均可达到正反相倍压的目的。 | The simulation results show that the improved charge pump's start-up voltage regulation time is only 51 μs, and it can achieve the purpose of positive and reverse voltage multiplication at a conventional power supply voltage of 2.8~6 V. |
| 41024 | 典型电源电压3.3 V,负载电流10 mA条件下,输出V+可达6.2 V,V-可达-6 V,纹波仅为15 mV,具有转换效率高,稳压输出的优点,改善了性能指标。 | Typical power supply voltage 3.3 V, load current 11 mA, output V + up to 6.2 V, V-up to-6 V, ripple is only 15 mV, has the advantages of high conversion efficiency and regulated output.The performance index is enhanced. |
| 41025 | 以包含碳纳米颗粒(CNP)的油墨、碳纳米管(CNT)和TiN纳米粒子为原料,采用高压静电喷涂技术在铝基底上沉积了CNT/CNP-TiN涂层。 | The ink containing carbon nanoparticles(CNP), carbon nanotubes(CNT) and TiN nanoparticles were chosen as raw materials, the high voltage electrostatic spraying technology was used to deposite CNT/CNP-TiN coatings on aluminum substrate. |