1、IC基本电气特性IC 基本电气特性Quiescent current 静态电流Standby current 低功耗电流Dropout voltage (LDO 特性)压降的输入电压Efficiency 功率Transient response 顺势特性Line regulation 线路调整器Load regulation 负载调整率Power supply rejection 电源排除/抑制NoiseAccuracy 精确性IC 量测IC(LDO)结构框图Capacitor 电容 reference 参考(电压) error amplifier 误差信号放大器Pass element 无源
2、元件(二极管) dynamic load 动态负载 主要模块包括 ;Voltage Reference 参考(电压) Error Amplifier 误差信号放大器Feedback Network 反馈网络 Series-pass Element 无源元件(二极管) 优点:简单、输出纹波电压低 、出色的 line 和负载稳压、对负载和 line 的变化响应迅速 、电 磁干扰 (EMI) 低缺点:效率低 、如果需要冷却设备,则要求较大的空间IC 基本电气特性 Quiescent Current & Standby CurrentQuiescent Current(Ground current)
3、: The difference between input and output 。 Low quiescent current is necessary tomaximize the efficiency. 低静态电流是最大限度地提高效率必要条件Standby Current :The input current drawn by a regulator when the output voltage is disabled by a shutdown signal.Quiescent Current and Output CurrentThe value of quiescent cur
4、rent is mostly determined by the series pass element, topologies, ambient temperature, etc. 静态电流的值主要是一系列无源 元件,拓扑结构,环境温度等 确定的 具体特性与 IC 结构、制程密切相关IC 基本电气特性 Dropout Voltage(特有规格)Low-Dropout Linear Regulators 低压差线性稳压器 传统的三端稳压器如: LM78xxVdrop 的典型值是 2V ,看到很多 7805 应用 时 都会背着一个散热器。LM317 2VLM1117 1.2V 。不同调整管结构的
5、比较:1 The NMOS pass element is most advantageous due to its low on resistance. Unfortunately, the gate drive difficulties make it less than ideal in applicaitons and as a result there are few NMOS LDOs available. 传统上, PNP 双极型晶体管应用到低压线性 稳压器,主要是因为它很容易实现了低压降电压。2 Traditionally, the PNP bipolar transistor
6、 has been applied to low dropout applications, primarily because it easily enables a low drop out voltage. However, it has a high quiescent current and low efficiency, which are not ideal in applications where maximizing efficiency is a priority. 然而,它的高静态电流和低效率,这是不理想的应用最 大限度地提高了效率是一个优先事项。3 PMOS devi
7、ces have been highlydeveloped and now have performance levels设备已经高度发达,现在的性能水平超过最双极器件。Dropout voltage: the input-to-output differential voltage at which the circuit ceases to regulate against further reductions in input voltage; this point occurs when the input voltage approaches the output voltage.
8、压降:对输入至输出差分电压在电 路不再规范对进一步削减输入电压 ;这一点时发生的输入电压接近输出电压。Vds=Vo-VinIC 基本电气特性 EfficiencyThe efficiency of a LDO regulator is limited by the quiescent current andinput/output voltage as follows: 效率是有限的 LDO 稳压器的静态电流和输入 /输出电压如下: 输 入电压降低 ;这一点时发生的输入电压接近输出电压 。To have a high efficiency LDO regulator, drop out vol
9、tage and quiescent current must be minimized. 具有高效率的 LDO稳压器, 电压和辍学静态电流必须减少到最低限度IC 基本电气特性 Load RegulationLoad Regulation:A measure of the circuit s ability to maintain the specified output voltage undervarying load conditions. 衡量电路的能力,保持指定的输出电压在不同负载条件下。Vo/ IoThe load regulation is limited by the open
10、 loop current gain of the system. As noted from the above equation, increasing dc open-loop current gain improves load regulation. 负荷调节是有限的开环电流增益的系统。正如上述方程,增加直流开环电流增益改善负载调节。Output Voltage With Respect to Input VoltageLine Transient ResponseIC 基本电气特性 Transient ResponseTransient Response:the maximum a
11、llowable output voltage variation for a load current (input voltage) step change.瞬态响应:允许的最大输出电压变化的负载电流(输入电压)一步变化。The transient response is a function of the output capacitor value (Co), the ESR of the output capacitor, the buypass capacitor (Cb), and the maximum load-current (Io,max). 瞬态响应是一个功能的输出电容
12、值(公司)中,电子自旋共振的输出电容器,电容器的buypass (炭黑) ,最 大负载电流( Io ,最大 值) 。ry critical in many RF and wireless application 非常关键的在许多射频和无线应用ESL load-transient response负载瞬态响应 ESR load-transient responseESL 影响比较小,但不合适的 PCB 布线同样使得性能下降。ESR 是越小越好,但 成本稳定性IC 基本电气特性 Power Supply RejectionPSRR:also known as ripple rejection, m
13、easurest he LDO regulator abisli ty to prevent the regulated output voltage fluctuating caused by input voltage variations. 也被称为纹波抑制,措 施的 LDO 稳压器的能力,以防止输出电压波动所造成的输入电压的变化The same relation for line regulation applies to PSRR except that the whole frequency spectrum is considered.同样的关系线适用于的 PSRR ,但整个频谱
14、是考虑。PSRR is based on small signals, whereas line transients are large signaPlsS.RR 是基于小信号, 而电压瞬态大信号。But why battery-powered application?The output voltage will show a large variation based upon the current drawn from that battery. 输出电压将出现大的变化根据目前从该电池。In GSM, transmit and receive cycles in the RF dra
15、w a huge amount of current, causing a large change in voltage on the output of the battery. That change in voltage is seen throughout the system and on inputs to all of the system regulators. 在 GSM ,传 输和接收周期中的射频吸引了大量的电流,造成一个大的变化对输出电压的电池。这一变化在电压是整个系统, 并投入到所有的系统监管。One of the dominant internal sources
16、of PSRR in an LDO is the bandgap reference. so it ims portant to have a bandgap reference with high PSRR. 其中一个主要的内部来源的 PSRR 的 LDO 中的带隙基准。因此,必须有一个带隙基准高的 PSRR 。Board layout must be carefully done to reduce the feedthrough from input to output via board parasitics. 电路板布局必须认真进行,以减少馈从输入输出通过董事会寄生 。Improve
17、d Power Supply Rejection For IC Linear RegulatorsLC filter 滤波器IC 基本电气特性 Noise在输出信号中包含我们不需要的信号。PSRR、NOISE 容易混淆的概念!PSRR 输入变化引起输出的变化,抑制能力NOISE 固有特性,和外部无关,主要由芯片内部电阻、晶体管产生衡量 NOISE 的两种式:Spectral 谱线 noise density 密度 a curve 曲线 that shows noise (uV/ Hz) versus 相对Equipment 设备: frequency 频率,that is,noise spec
18、tral density cureIntegrated 综合的 output noise spectrum analyzer 光谱分析器 . with units uV/ Hz plotted over frequencyspectral noise density integrated over aoutput noise voltage (in Vrms) certainfrequency range and cantherefore be thought of as the total noise in a specified frequency range. Equipment:Tru
19、e root-mean-square(Rms)meter Absolute measurement with units uV-RMS(rootmean square)take over a fixed bandwidth真有效值测量 AC / DC噪声源:Reference 重要因素,通过外接 LPF 来减小基准噪声的影响。 但电容也不能太大, 否则会对启动产生影响。 LPF的CUTOFF 频率一般会设在 1-500KHz resistor divider 电阻分割器 热噪声 4KTR,要减小噪声,采样电阻的阻值不能取很大。和低功耗要求相矛盾, 如果噪声是必须考虑的因素, 也只有部分的牺牲
20、功耗。EA - 若是 2 级运放,则低噪声设计,第一级提供大部分的 GAIN。PASS FET 调整管虽然占芯片比较大的面积, 对 NOISE 的影响不大, 因为和其它几个因素相比, PASS FET缺少了增益级整个环路的频率特性也会对 NOISE 产生影响尽量采用大的相位裕度。相位裕度减小,环路趋于不稳定,增益的峰值变大。 output noise voltage (in Vrms) 是对频域的噪声做积分, 噪声的增益大了, 所以噪声也会大。 所以对于低噪声的设计,如果可以的话可 以在 R1 两端并一 个小电容,这样在 高频时 ,基准到输 出之间是一个单 位增益的放大器。IC 基本电气特性 Accuracy 准确性Accuracy:specifies all effects of line regulation (VLR), load regulation ( VLDR), reference voltage drift ( Vo,ref ), error amplifier voltage drift ( Vo,a ),external sampling resistor tolerance (Vo,r ), and temperature coefficient (VTC). 指定所有影响线路调整,负载调节, 参考电压漂移,误差放大器电压漂移,外部取样电阻宽容,和温度系数。
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