It features simple structure, good process compatibility and function of temperature hysteresis which prevents the damage by thermal-oscillation.
电路结构简单、工艺兼容性好,同时具有温度的迟滞特性可以更好的保护芯片,避免热振荡的产生。
In concrete structure, due to coefficient of conduction for concrete is small, when external environment changes sharply, the change for internal temperature has distinct hysteresis.
在混凝土结构中,由于混凝土导热系数小,外部环境急变时,内部温度变化存在明显的滞后现象。
An empirical formula describing the dependence of the power of hysteresis loss on frequency, magnetic flux density and temperature was derived.
得出磁滞损耗功率与频率、磁通密度及温度的经验公式。
The obtained equations could be used to quantitatively analyze the hysteresis heat source of tire temperature field.
所得关系式可用于轮胎温度场滞后热源的定量分析。
The magnetic hysteresis curve of iron foil prepared by electrodeposition in different cathodic current densities and temperature was tested.
测试了电沉积溶液温度和阴极电流密度变化时电沉积铁箔的磁滞回线。
The temperature compensated reference voltage stabilizes the lockout threshold voltage and hysteresis quality.
通过对自产生的基准电压进行温度补偿确保了锁定阈值电压和迟滞量稳定。
Near the transition temperature, a thermal hysteresis was found in dielectric, pyroelectric and piezoelectric measurements. Thus the transition should be of the first order transition.
在相变温度区域里,介电、热电和压电都有明显的热滞效应,具有一级相变特性。
The hysteresis brings about a stable switching signal even when there are vibrations, temperature drift, or electrical failures.
带来的滞后,即使有振动,温度漂移,或电器故障一个稳定的开关信号。
The individual cycle-strain hysteresis loops were recorded, and the cycling response and high temperature low cycle fatigue life were obtained.
记录了各自的循环应力—应变滞后环,得出了试样的循环响应特征和各试样的高温低周疲劳寿命。
With continuation of temperature cycling there is a reversible change of the shape(along curve 2) with a very small hysteresis.
在随后的温度循环中,其形状的变化是可逆的(沿曲线2),滞后效果很小。
MnZn ferrite was prepared by hydrothermal method, and its property was described by XRD, hysteresis loop and temperature rise curve.
采用水热合成方法制得了晶相单一的锰锌铁氧体,对样品进行了XRD、磁滞回线和温升曲线的测定。
With increasing temperature, the current hysteresis loops, which were caused by charged quantum dots, reduced gradually.
随着温度上升,量子点的存储效应引起的电流回路逐渐减小。
With increasing temperature, the current hysteresis loops, which were caused by charged quantum dots, reduced gradually.
随着温度上升,量子点的存储效应引起的电流回路逐渐减小。
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