Voltage Reference in the design, how to achieve high-precision, low temperature coefficient is a major difficulty.
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。
A new low-voltage low-power CMOS voltage reference operating in subthreshold region is presented.
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。
The low-voltage driving circuit is adopted to drive a piezoelectric ceramic phase shifter to shift the phase of the reference beam, so as to make the instrument lighter, smaller and cheaper.
采用低压驱动电路驱动压电陶瓷相移器对参考光束进行相移,从而使仪器质量减轻、体积缩小、成本降低。
Current Summing is the basic method to realize low-voltage reference which is different from that of conventional voltage mode.
不同于常规电压求和带隙基准,电流求和是实现低压基准的主要方法。
A differential reference voltage generator with low power consumption and good performance, which is used in ADC, is introduced.
介绍了一种可直接应用于模数转换器的低功耗、高性能差分参考电压源。
Low power, low voltage and high PSRR are the main challenges in designing bandgap reference for switching regulator.
微功耗、低工作电压、高电源抑制比是在电源芯片中的基准源设计过程中遇到的主要挑战。
The schematics includes four parts: bandgap reference voltage and reference current, 2.7V and 1.8V regulator, over-load protection , Low Battery Detection (LBD) .
其原理包括参考电压电流电路,2.7V及1.8V电压调整电路,过流保护电路以及低压检测电路四个部分。
Circuit Breakers are supplied to protect the 115 VAC Inputs (2 each) as well as the Variable Amplitude Low Voltage Powers used by the Indicator Under Test (UUT) for Power, Reference or Lighting.
断路器被提供用于保护115VAC输入(各有2个),以及保护被测指示器(UUT)所用于电源,基准或照明的可变振幅低压电源。
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.
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 low voltage current mode bandgap voltage reference circuit with a novel start-up circuit is designed.
介绍了一种低压电流模带隙电压基准电路,并提出了一种新颖的启动电路结构。
A high-precision CMOS current reference circuit is proposed for using in low-dropout (LDO) voltage regulators with low power.
设计了一种新型的用于低功耗LDO线性稳压器的CMOS高精度参考电流源。
A low power CMOS bandgap voltage reference source with a start-up circuit is presented based on the bandgap voltage theory.
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 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.
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。
It is a complete, monolithic ADC with an on-chip, high performance, low noise sample-and-hold amplifier and programmable voltage reference.
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。
This paper introduces a low supply voltage band -gap reference circuit which used a self-bias cascode current mirror.
因此介绍了一种采用自偏置低压共源共栅电流源的带隙基准电路结构,用两个电阻代替了偏置电路。
This can offer certain reference to engineering design of low-voltage large-power variable-frequency motor.
这对低压大功率变频电机的工程设计具有一定的参考价值。
A design of a low voltage bandgap reference in 0.
文中设计了一种高阶温度补偿的精确带隙电压基准,使用0。
The circuit also USES high accuracy, low drift voltage reference to bias the platinum resistor.
该电路采用高精度低温漂的基准源为铂电阻形成静态工作电流。
Based on the basic principle of bandgap reference, design a high precision, high power supply rejection ratio (PSRR) and low temperature coefficient (TC) bandgap voltage reference.
基于带隙基准的基本原理,设计了一种高精度、高电源抑制比(PSRR)、低温度系数(TC)的带隙基准电压源。
A low voltage bandgap reference for a novel uncooled IRFPA readout circuit is presented.
设计了一种用于新型非制冷irfpa读出电路的低温漂的低压带隙基准电路。
A low voltage bandgap reference for a novel uncooled IRFPA readout circuit is presented.
设计了一种用于新型非制冷irfpa读出电路的低温漂的低压带隙基准电路。
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