基准电压源

对于大多数应用来说，无需外部基准电压源或驱动器件。

No external reference or driver components are required for many applications .

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 .

阐述了一种采用了一阶温度补偿技术设计的CMOS带隙基准电压源电路。

A CMOS band-gap reference circuit with first-order temperature compensation is presented .

衬底驱动超低压CMOS带隙基准电压源

Ultra-low Voltage CMOS Bandgap Voltage Reference Based on Bulk-driven Technique

一种用于CMOSA/D转换器的带隙基准电压源

A Bandgap Voltage Reference Source for CMOS Analog-to-Digital Converter

LCD驱动中的带隙基准电压源的设计与实现

Design and Realization of Band-gap Reference in LCD

电流叠加型CMOS基准电压源

A CMOS Voltage Reference with Current Superposition

设计实现了一款低成本、高精度、输出电压可调的、纯CMOS基准电压源电路。

A CMOS voltage reference with low cost , high accuracy and adjustable output has been designed .

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 .

本文设计的基准电压源已应用到DC-DC产品中。

The voltage reference suggested in this paper applied to DC-DC products .

基于PSPICE高温度稳定性基准电压源的设计

Design of High Temperature Stability Voltage Reference By Pspice

同时，带隙基准电压源电路的结构简单，可靠性较高，可以用标准CMOS工艺实现，适宜于大规模生产，目前已成为CMOS集成电路当中最流行的一种基准电压产生器。

At present , the bandgap reference voltage has been the most popular reference voltage generator in CMOS integrated circuits .

实现了一种适用于SOC的低压高精度带隙基准电压源设计。

A design of a low voltage bandgap reference ( BGR ), for SOC application with high accuracy is described .

因此本文主要工作是设计一个低压低功耗的CMOS带隙基准电压源。

Hence , the work of this thesis is the design of a low voltage low power CMOS bandgap reference voltage source .

温度曲率补偿型CMOS带隙基准电压源电路采用了有效的曲率补偿技术，温度稳定性高，结构简单。

The temperature curvature compensation CMOS bund-gap reference circuit has high temperature stability and simple structure by adopting efficient curvature compensation technology .

采用二阶温度补偿和电流反馈技术，设计实现了一种基于衬底驱动技术和电阻分压技术的超低压CMOS带隙基准电压源。

Based on bulk-driven and resistive subdivision techniques , an ultra-low voltage CMOS bandgap reference using second-order temperature and current feedback techniques is realized .

设计了基准电压源和电压微调电路，为ADC提供参考电压和电流，而且能进行一定范围内的微调。

Design a bandgap voltage reference circuit and a voltage-modifying circuit to provide precise voltage and current reference for the referred ADC .

这是一款完整的单芯片ADC，内置片内高性能、低噪声采样保持放大器和可编程基准电压源。

It is a complete , monolithic ADC with an on-chip , high performance , low noise sample-and-hold amplifier and programmable voltage reference .

为了有效降低模拟集成电路的功耗，提高工艺兼容性，文中提出了一种全CMOS结构的低电压、低功耗基准电压源的设计方法。

A CMOS voltage reference circuit operate under sub-threshold state has been presented in this paper and analysising the limitation of MOSFET when it works in sub-threshold condition .

通过对低压低功耗集成电路设计技术的分析，着重设计了一个基于衬底驱动技术的CMOS带隙基准电压源，其带有提高电源抑制比电路和启动电路。

A CMOS bandgap voltage reference with low voltage based on the bulk driven technology is designed in this paper , with circuit to improve PSRR and start-up circuit .

一种高性能的BiCMOS带隙基准电压源

Super Performance BiCMOS Band-Gap Voltage Reference

本文的主要工作在于：⒈实现了一种基于BiCMOS工艺的一阶温度补偿带隙基准电压源。

A first-order temperature-compensated bandgap voltage reference has been realized based on the standard BiCMOS process .

本文讨论E/DNMOS高稳定度基准电压源的设计方法。

This paper discusses the design method of E / D NMOS high stability voltage reference .

一种低功耗高PSRR的基准电压源

Low Power and High PSRR Voltage Reference

设计了应用在PipelinedADC中的基准电压源的系统框架，包括两大部分，带隙基准电路及对该带隙输出电压的处理电路。

Then the system of voltage reference in Pipelined ADC is designed , including the bandgap generator circuits and the circuits which deal with the bandgap voltage output .

同时利用PNP晶体管发射结电压的负温度特性和发射结差值电压的正温度特性设计了一个带隙基准电压源。

According to negative temperature coefficient of VBE and positive temperature coefficient of VT , a framework of band-gap voltage reference is investigated .

BI-CMOS基准电压源

Design of a BI-CMOS Voltage Reference

基准电压源是模拟集成电路中的基本单元，它在SOC、ADC、DAC、传感器和通信电路以及存储器等领域有广泛应用。

Reference voltage source is analog integrated circuits in the basic unit of its SOC , ADC , DAC , sensor and communication circuits , as well as the areas of memory are widely used .

论文详细描述了一个运用标准数字CMOS工艺实现的、采用MOS管的栅源电压差进行有效的温度曲率补偿的带隙基准电压源电路的设计。

In this paper , a precise CMOS bandgap voltage reference which uses the difference of MOS source-gate voltage to perform efficient curvature compensation is described in detail , which is compatible with standard digital CMOS process .

最后完成了一款多功能可编程的SI双二次滤波器的设计，其单元模块包括SI存储单元、SI积分器、电流乘法器、电流镜、分流器、基准电压源和基准电流源等。

Finally , a kind of SI biquadratic filter with multifunction and adjustment was designed . The filter included the SI memory cell , SI integrator , current multiplier , current mirror , current divider , fiducial voltage source and fiducial current source .