ID 原文 译文
26035 本文研究了高、低电平输出偏置条件下双极电压比较器 LM311 的电离总剂量(Total Ionizing Dose,TID)—单粒子瞬态(Single Event Transient,SET)的协同效应。 This paper investigates the synergistic effect of Total Ionizing Dose (TID) -Single Event Transient (SET) of the bipolar voltage comparator LM311 under high and low level output bias conditions.
26036 实验结果表明,高电平输出偏置条件下累积总剂量后的LM311 SET 会受到明显抑制,主要表现为瞬态脉冲宽度减小,SET 幅值变小。 The results showed that the SET of LM311 after the cumulative total dose under high level output bias condition was significantly inhibited, mainly due to the decrease of transient pulse width, and the SET amplitude was also slightly reduced.
26037 低电平输出偏置条件下累积总剂量后的 LM311 SET 有促进作用,主要表现为瞬态脉冲宽度增大,SET 幅值变大。 The SET of LM311 after accumulating the total dose under the condition of low-level output bias has a promoting effect, which mainly manifests as the transient pulse width increases and the SET amplitude increases.
26038 与高电平输出偏置条件相比,LM311 在低电平输出偏置条件下对 SET 不敏感。 Compared with the high-level output bias condition, the LM311 is not sensitive to SET underthe low-level output bias condition.
26039 发现 TID 诱发的界面态陷阱电荷和氧化物陷阱电荷是 TID-SET 协同抑制效应出现的根本原因。 It was found that the interface trap charges and oxide trap charges induced by TID are the root cause of the TID-SET synergistic inhibitory effect.
26040 文章提出了一种独立可调双频带通滤波器。 This paper presents an independently adjustable dual-band bandpass filter.
26041 该滤波器主要由一对加载变容二极管的并联耦合短路线、一对加载变容二极管的 λ/2 开路谐振器和公共输入输出部分组成。 The filter is mainly composed of apair of varactor-loaded parallel coupling short circuits, a pair of λ/2 varactor-loaded open resonators, and a common input/out-put component.
26042 变容二极管和并联耦合短路线并联构成一个谐振器,产生第一通带。 The varactor diode and the parallel coupling short circuits are connected in parallel to form a resonator which produces the first passband.
26043 λ/2 开路谐振器加载变容二极管,产生第二通带。 The λ/2 varactor-loaded open resonators are used to load the varactors and produce the second passband.
26044 通过改变加载在变容二极管上的偏置电压来改变变容二极管的电容值,使谐振器的谐振频率发生偏移,从而调节滤波器工作频率。 By adjusting the bias voltage on the varactors to change the capacitance value of the varactors, the resonant frequency of the resonators can be shifted and thus the operating frequency of the filter can be adjusted.