基准电压的噪声误差是不同的问题。
集成基准电压源可简化设计。
An integrated voltage reference eases design considerations.
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.
基准电压源是模拟电路中的一个重要单元。
Voltage reference is one of the most important cells in analog circuit.
设计了一种高准确度无电阻的带隙基准电压源。
A high accuracy band-gap reference voltage without resistor is designed.
容易看到基准电压给定值对ADC绝对精度的影响。
It is easy to see how the voltage reference's specified value affects the ADC's absolute accuracy.
模拟输入范围取决于AD7763采用的基准电压。
The reference voltage supplied to the AD7763 determines the analog input range.
基准电压源是集成电路系统中一个非常重要的构成单元。
设计了一种具有良好稳定性和高精度的带隙基准电压源电路。
A bandgap voltage reference circuit with good stability and high accuracy is designed in this pa - per.
基准电压(REF)由外部提供,最高可以设置为电源电压。
The reference voltage, ref, is applied externally and can be set up to the supply voltage.
VDD输入同时用作器件的基准电压,因而无需外部基准电压。
The VDD input is also used as the reference for the part so that no external reference is required.
提出了一种新颖的带有软启动的高精密CMOS带隙基准电压源。
This paper proposes a novel high precision CMOS bandgap voltage reference which with a soft-start up circuit.
提出了一种新型的低电压、低功耗、工作在亚阈值区的基准电压源。
A new low-voltage low-power CMOS voltage reference operating in subthreshold region is presented.
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.
在定制比率应用器件时,差分基准电压输入还能提供极大的灵活性。
Differential reference inputs also allow maximum flexibility in tailoring the device for use in ratiometric applications.
设计高性能的基准电压源和比较器是模拟电路工程师一直努力的目标。
To design voltage reference and comparator with high performance is a long-term pursuit of analogy IC designers.
基准电压(VREF)由外部提供,最高可以设置为电源电压VDD。
The reference voltage, VREF, is applied externally and can be set up to the supply voltage, VDD.
输出DC电压可在很宽的范围内任意调节,只需要改变基准电压元件。
The output of the DC voltage can be regulated in a wide range only by changing the datum component.
也可以选用外部基准电压源,以满足应用的直流精度与温度漂移要求。
An external reference can also be chosen to suit the dc accuracy and temperature drift requirements of the application.
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.
从传递方程也注意到基准电压误差对较高输入电压转换器的结果影响更大。
You will also notice from the transfer function that the reference errors have more influence on the converter results with higher input voltages.
运用带隙基准的原理,提出了一种带启动电路的低功耗带隙基准电压源电路。
A low power CMOS bandgap voltage reference source with a start-up circuit is presented based on the bandgap voltage theory.
基准电压产生电路为带隙电路的扩展,节省了资源并得到了高稳定度的基准电压。
The voltage reference generator was the expansion of the bandgap circuit for saving the resources.
设计构成可复用的与通用数字电路工艺兼容的高稳定度基准电压源具有重要意义。
Therefore, it is significant to develop a voltage reference circuitry that is compatible with digital CMOS technology and can be integrated into a system on a chip (SOC).
基于精密基准电压源lm199的解剖,对其恒温电路作了全面的计算机辅助分析。
An overall computer-assisted analysis of the temperature control circuit for the precision reference voltage source LM199 has been made.
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.
片内可编程基准电压源和基准电压缓冲放大器经过配置,可获得最高的精度和灵活性。
The on-chip programmable reference and reference buffer amplifier are configured for maximum accuracy and flexibility.
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.
阐述了AD 7710的模拟电压输入、基准电压输入以及与微处理器的数字接口电路。
The circuit of analog input, reference input and the serial digital interface with microcomputer of AD7710 is presented.
阐述了AD 7710的模拟电压输入、基准电压输入以及与微处理器的数字接口电路。
The circuit of analog input, reference input and the serial digital interface with microcomputer of AD7710 is presented.
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