基准温度的选择是无关紧要的。
测得材料的基准温度电阻,电阻温度系数及能够确定传感器工作范围的临界温度。
The resistance at reference temperature, its temperature coefficient, and the critical temperature of the material that the operating range of the sensor depended on have been obtained.
基准电压源根据传统带隙基准温度补偿原理,设计了一级温度补偿的片上带隙基准源。
The design of a linear temperature compensation voltage bandgap reference is based on the traditional bandgap.
用更加长远,以及更加可靠的基准来衡量的话,温度仍然是上升的。
On any longer, and therefore more reliable, basis of measurements, temperatures were going up.
在基准电压源的设计中,如何实现高精度、低温度系数是一大难点。
Voltage Reference in the design, how to achieve high-precision, low temperature coefficient is a major difficulty.
(使用)密电压基准会涉及精度变化和特定范围的整个工作温度范围内的初始精度。
Precision voltage references are available with varying degrees of precision and initial accuracy over some operating temperature range.
当基准经历一个温度变化且返回初始温度,它们并非总能获得与初始电压相同的电压。
When references experience a temperature change and return to the initial temperature, they do not always have the same initial output voltage.
其输出的基准信号稳定,与电源电压、温度以及工艺的变化无关。
Reference source outputs a stable reference signal which is independent of power supply voltage, temperature and process.
由此得到温度系数很小的带隙基准电压。
Therefore, we get the bandgap reference voltage with very small temperature coefficient.
分析了以草酸钠为基准物标定高锰酸钾标准溶液浓度的反应原理,标定操作及温度、酸度、滴定速度等滴定条件对标定结果的影响。
This paper discusses the reaction principle and titrimetric operation in defining consistency of potassium permanganate titrant which sodium oxalate is regarded as the basis material.
带隙基准电压源之所以是模拟电路中重要的模块,是因为它能够提供近似恒定的参考电压,这个电压不随温度,电源电压,工艺的变化而变化。
Bandgap reference voltages are important analog circuit blocks. It can provide a nearly constant reference voltage which is stabilized over process, power supply and temperature variation.
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。
The temperature compensated reference voltage stabilizes the lockout threshold voltage and hysteresis quality.
通过对电压源传统设计中关于速度、噪声、工作温度范围方面的研究,设计了一种带隙基准电压源。
We have provided improvements on speed, noise, temperature operating range issues compared with traditional bandgap reference design.
用此工具可方便精确地分析计算基准电压源设计中的温度特性及电源电压抑制比等参数,大大提高设计效率。
The temperature characteristic, Voltage control rate and other parameters can accurately be analyzed, and design efficiency can greatly be raised by using the tool.
在稳压电路中,作为电压基准的稳压二极管,随着温度的变化,其稳定电压值亦会发生相应的变化。
In the voltage regulator circuit, the zener diode which ACTS as the voltage datum, along with the temperature change, its regulated voltage value also can have the corresponding change.
二次温度补偿的带隙基准源是先进模拟和混合集成电路中的重要部分。
The high precision band gap reference is a very important part in the advanced analog and mixed-signal ICs.
偏置电流源电路的设计:利用带隙基准电压源提供的,通过运算放大器为系统其他的模块提供一个与温度无关的稳定的电流偏置。
The current bias design: Taking advantage of the bandgap reference voltage, the temperature independent current bias for the system is designed by an operation amplifier.
分段补偿电流对电压基准源的温度特性提升效果明显。
It is obvious that piecewise compensation current could significantly improve temperature characteristics of the voltage reference source.
通过启动电路和提高电源抑制比电路的加入,使得带隙基准电压具有较高的电源电压抑制比和较小的温度系数。
The inclusion of the start up circuit and PSRR enhancement circuit enables it to achieve a low temperature coefficient and high PSRR.
但它产生的基准电压精度、抗干扰能力和温度稳定性等参数直接影响着整个电源的性能。
But it generated reference voltage accuracy, anti-jamming, temperature stability and other parameters directly affect the performance of power.
它利用带隙基准的基本原理,结合自偏置结构以及适当的启动电路,获得了相对稳定的电压值以及较好的温度系数。
It USES the traditional principle of bandgap reference together with the self-bias structure and startup circuit to get the stable voltage output and good temperature coefficient.
本文研究了基准输出非线性的来源,分析对比了常见的温度补偿策略,并进行了性能对比。
The source of the nonlinear characteristics of reference sources is discussed, and several common high-order temperature compensation methods are introduced.
主要分析了获得零温度系数的参考电压的机理,通过分析修改其经典结构,给出了可以应用于实际的带隙基准源模型。
Paper analyzes the mechanism of zero temperature coefficient reference, and modifies the classical configuration to deduce the circuit which can be used in practice.
其中带隙基准采用指数曲率补偿作为非线性补偿,具有很好的温度性能和高电源电压抑制比;
The bandgap reference uses the exponential curvature compensation as the nonlinear compensation and has the better temperature characteristic and high PSRR(Power Supply Rejection Ratio);
带隙基准可提供近似零温度系数和大的电源电压抑制比的稳定电压基准,且与工艺基本无关。
Bandgap Reference can provide stable voltage with nearly zero temperature coefficient and larger PSRR, and also are process unrelated.
通过对梭幼鱼各项温度基准值的测定,研究了电厂冷却水对梭幼鱼的热效应。
The title study was carried out by measuring various critical temperatures for young mullet.
本文提出了一种新型低温度系数和高PSRR基准电流源设计方案。
A new low temperature coefficient and high-PSRR current reference design was presented.
带隙基准源是集成电路中的重要单元,输出不随温度、电源电压变化的基准电压或电流。
Bandgap reference source is an important unit in integrated circuits, which supplied reference voltage or current independent of temperature and supply voltage.
带隙基准源是集成电路中的重要单元,输出不随温度、电源电压变化的基准电压或电流。
Bandgap reference source is an important unit in integrated circuits, which supplied reference voltage or current independent of temperature and supply voltage.
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