A capacitor-free CMOS low-dropout regulator with damping-factor-control frequency compensation

A 1.5-V 100-mA capacitor-free CMOS low-dropout regulator (LDO) for system-on-chip applications to reduce board space and external pins is presented. By utilizing damping-factor-control frequency compensation on the advanced LDO structure, the proposed LDO provides high stability, as well as fast line and load transient responses, even in capacitor-free operation. The proposed LDO has been implemented in a commercial 0.6-/spl mu/m CMOS technology, and the active chip area is 568 /spl mu/m/spl times/541 /spl mu/m. The total error of the output voltage due to line and load variations is less than /spl plusmn/0.25%, and the temperature coefficient is 38 ppm//spl deg/C. Moreover, the output voltage can recover within 2 /spl mu/s for full load-current changes. The power-supply rejection ratio at 1 MHz is -30 dB, and the output noise spectral densities at 100 Hz and 100 kHz are 1.8 and 0.38 /spl mu/V//spl radic/Hz, respectively.     

Noise-shaping techniques applied to switched-capacitor voltage regulators

A delta-sigma control loop for a buck-boost dc-dc converter with fractional gains is presented. This technique reduces the tones caused by the traditional pulse-frequency modulation regulation. The prototype regulator was fabricated in a 0.72-/spl mu/m CMOS process and clocked at 1 MHz. It achieved suppression of tones up to 55 dB in the 0-500-kHz range. The input voltage range was 3-5 V. The output voltage ranged from 1.8 to 4 V for load currents up to 150 mA.     

An ultra-low power output capacitor-less low-dropout regulator with slew-rate-enhanced circuit

An ultra-low power output-capacitorless low-dropout (LDO) regulator with a slew-rate-enhanced (SRE)circuit is introduced.The increased slew rate is achieved by sensing the transient output voltage of the LDO and then charging (or discharging) the gate capacitor quickly.In addition,a buffer with ultra-low output impedance is presented to improve line and load regulations.This design is fabricated by SMIC 0.18 μm CMOS technology.Experimental results show that,the proposed LDO regulator only consumes an ultra-low quiescent current of 1.2 μA.The output current range is from 10 μA to 200 mA and the corresponding variation of output voltage is less than 40 mV.Moreover,the measured line regulation and load regulation are 15.38 mV/V and 0.4 mV/mA respectively.     

Current buffer compensation topologies for LDOs with improved transient performance

The goal of internal frequency compensation of a low dropout voltage regulator (LDO) is the selection of a small-value, ESR-independent output capacitor. Cascode compensation formed by a common-gate transistor acting as a current buffer, an optional series resistor, and a compensation capacitor creates a dominant pole and a left-half-plane (LHP) zero, allowing adequate phase margin and stable LDO design. To this end, a 1.21?V output, 100?mA, 0.1?C10???F output capacitor, ESR-independent, low voltage LDO using cascode compensation with replica bias is designed and fabricated in a 0.5???m CMOS process with an area of 0.22?mm². A line regulation of 0.05% V/V, load regulation of 0.001% V/mA and dropout voltage of 220?mV were measured. LDO-specific pole-zero analysis is detailed. In addition to this design, two improved transient response LDO architectures using cascode compensation with split-length transistors are also explored. A Power Good feature is discussed, which enables direct interface between the LDO and a micro-processor.     

Enhanced active feedback technique with dynamic compensation for low-dropout voltage regulator

This paper presents a novel frequency compensation technique for a low-dropout (LDO) voltage regulator. Enhanced active feedback frequency compensation is employed to improve the frequency response. The proposed LDO is capable of providing high stability for current loads up to 150 mA with or without loading capacitors. The proposed LDO voltage regulator provides a loop bandwidth of 7.8 MHz under light loads and 6.5 MHz under heavy loads. The maximum undershoot and overshoot are 59 and 90 mV, respectively, for changes in load current within a 200-ns edge time, while the compensation capacitors only require a total value of 7 pF. This enables easy integration of the compensation capacitors within the LDO chip. The proposed LDO regulator was designed using TSMC 0.35-μm CMOS technology. With an active area of 0.14 mm² (including feedback resistors), the quiescent current is only 40 μA. The input voltage ranges from 1.73 to 5 V for a loading current of 150 mA and an output voltage of 1.5 V. The main advantage of this approach is the stability of the LDO circuit when external load capacitors are connected, or even without load capacitors.     

A capacitor-free CMOS LDO regulator with AC-boosting and active-feedback frequency compensation

A capacitor-free CMOS low-dropout(LDO)regulator for system-on-chip(SoC)applications is presented.By adopting AC-boosting and active-feedback frequency compensation(ACB-AFFC),the proposed LDO enhancement circuit is adopted to increase the slew rate and decrease the output voltage dips when the load current is suddenly switched from low to high.The LDO regulator is designed and fabricated in a 0.6/am CMOS process.The active silicon area is only 770×472μm2.Experimental results show that the total error of the output voltage due to line variation is less than ±0.1 97%.The load regulation is only 0.35 mV/mA when the load current changes fromoto 100mA.     

50 Gbit/s 2:1 multiplexer in 0.13 /spl mu/m CMOS technology

A fully integrated 2:1 multiplexer IC which operates at up to 50 Gbit/s data rate is presented. The MUX uses inductive shunt peaking and an output series inductor for higher bandwidth. The MUX directly drives the 50 /spl Omega/ load. The IC is fabricated in a 0.13 /spl mu/m bulk CMOS technology and draws 65 mA at 1.5 V supply voltage. The output voltage swing is 2/spl times/100 mV.     

一种快速瞬态响应的无片外电容LDO的设计

基于上华0.5μm工艺,设计了输入电压范围为3.5～6.5V,输出电压为3.3V,最大输出电流为100mA的CMOS无片外电容的低压差线性稳压器.提出了一种自动检测网络用来快速感应负载电流的变化,抑制输出电压的跳变,改善了负载瞬态响应.在稳定性方面,采用miller补偿,加之第二级采用了输出电阻很小的buffer结构[1],这样主极点和次极点分离很远使得系统稳定.仿真表明,该LDO在VIN=6.5V和VIN=3.5V下under-shoot分别为156mV和135mV,overshoot分别为145mV和60mV,线性调整率和负载调整率分别为0.023%和0.5%.     

A frequency compensation scheme for LDO voltage regulators

A stable low dropout (LDO) voltage regulator topology for low equivalent series resistance (ESR) capacitive loads is presented. The proposed scheme generates a zero internally instead of relying on the zero generated by the load capacitor and its ESR combination for stability. It is demonstrated that this scheme realizes robust frequency compensation, facilitates the use of multilayer ceramic capacitors for the load of LDO regulators, and improves transient response and noise performance. Test results from a prototype fabricated in AMI 0.5-/spl mu/m CMOS technology provide the most important parameters of the regulator viz., ground current, load regulation, line regulation, output noise, and start-up time.     

192 GHz push-push VCO in 0.13 /spl mu/m CMOS

A 192 GHz cross-coupled push-push voltage controlled oscillator (VCO) is fabricated using the UMC 0.13 /spl mu/m CMOS logic process. The VCO can be tuned from 191.4 to 192.7 GHz. The VCO provides output power of /spl sim/-20 dBm and phase noise of /spl sim/-100 dBc/Hz at 10 MHz offset, while consuming 11 mA from a 1.5 V supply.     

一种低静态电流、高稳定性的LDO线性稳压器

该文提出了一种低静态电流、高稳定性低压差(LDO)线性稳压器。LDO中的电流偏置电路产生30nA的低温度漂移偏置电流,可使LDO的静态工作电流降低到4A。另外,通过设计一种新型的动态Miller频率补偿结构使得电路的稳定性与输出电流无关,达到了高稳定性的设计要求。芯片设计基于CSMC公司的0.5m CMOS混合信号模型,并通过了流片验证。测试结果表明,该稳压器的线性调整和负载调整的典型值分别为2mV和14mV;输出的最大电流为300mA;其输出压差在150mA输出电流,3.3V输出电压下为170mV;输出噪声在频率从22Hz到80kHz间为150VRMS。     

Low-voltage high-drive CMOS current feedback op-amp

A novel CMOS current feedback op-amp is presented. The solution works using a low supply voltage and provides a wide input/output swing as well as a high current driving capability. Experimental results from a prototype implemented in a 0.35-/spl mu/m technology and powered with 1.5 V are also given. The circuit exhibits a better than 500 kHz closed-loop bandwidth and a /spl plusmn/1 mA current drive capability.     

Fully on-chip switched capacitor NMOS low dropout voltage regulator

This paper presents a 1.5 V 50 mA low dropout voltage (LDO) regulator using an NMOS transistor as the output pass element. Continuous time operation of the LDO is achieved using a new switched floating capacitor scheme that raises the gate voltage of the pass element. The regulator has a 0.2 V dropout at a 50 mA load and is stable for a wide load current range with loading capacitances up to 50 pF. The output variation when a full load step is applied is 300 mV and the recovery time is below 0.3 μs. It is designed in a 0.13 μm CMOS process with an area of 0.008 mm² and its operation does not require any external component.     

A robust low quiescent current power receiver for inductive power transmission in bio implants

In this paper, a robust low quiescent current complementary metal-oxide semiconductor (CMOS) power receiver for wireless power transmission is presented. This power receiver consists of three main parts including rectifier, switch capacitor DC–DC converter and low-dropout regulator (LDO) without output capacitor. The switch capacitor DC–DC converter has variable conversion ratios and synchronous controller that lets the DC–DC converter to switch among five different conversion ratios to prevent output voltage drop and LDO regulator efficiency reduction. For all ranges of output current (0–10 mA), the voltage regulator is compensated and is stable. Voltage regulator stabilisation does not need the off-chip capacitor. In addition, a novel adaptive biasing frequency compensation method for low dropout voltage regulator is proposed in this paper. This method provides essential minimum current for compensation and reduces the quiescent current more effectively. The power receiver was designed in a 180-nm industrial CMOS technology, and the voltage range of the input is from 0.8 to 2 V, while the voltage range of the output is from 1.2 to 1.75 V, with a maximum load current of 10 mA, the unregulated efficiency of 79.2%, and the regulated efficiency of 64.4%.     

具有快速瞬态响应和低静态电流的CMOS低漏失稳压器设计

 设计了一种具有快速瞬态响应能力的低漏失稳压器,利用提出的一种瞬态响应加速(Transient Response Enhancement,TRE)电路,有效地提高了稳压器的瞬态响应速度,而且瞬态响应速度的提高并不增加静态电流.设计的LDO电路采用0.5μm标准CMOS工艺投片验证,芯片面积为0.49mm².该LDO空载下的静态电流仅23μA,最大带载200mA.在1μF输出电容、200mA/100ns负载阶跃变化时的最大瞬态输出电压变化量小于3.5％.     

一种动态补偿、高稳定性的LDO设计

设计并实现了一种动态补偿、高稳定性的LDO.针对LDO控制环路稳定性随负载电流变化的特点,给出一种新颖的动态补偿电路.这种补偿电路能很好地跟踪负载电流的变化,从而使控制环路的稳定性几乎与负载电流无关.设计采用CSMC 0.5μm标准CMOS工艺,利用Cadence的EDA工具完成电路设计、版图绘制和流片测试,最终芯片面...     

一种高稳定性高精度低压差线性稳压器的分析与设计

提出了LDO,其基于缓慢滚降式频率补偿方法,通过在电路中引入三个极零对(极零对的产生没有增加静态功耗),不仅克服了常规LDO不能使用低等效串联电阻、低成本陶瓷输出电容的缺点,而且确保了系统在整个负载和输入电压变化范围内稳定工作.由于LDO通常给高性能模拟电路供电,因此其输出电压精度至关重要;而该补偿方法能满足高环路增益、高单位增益带宽的设计要求,从而大幅提高LDO的精度.该LDO基于0.5μm CMOS工艺实现.后仿结果表明,即使在低压满负载条件下,其开环DC增益仍高于70dB,满载时单位增益带宽可达3MHz,线性调整率和负载调整率分别为27μV/V和3.78μV/mA,过冲和欠冲电压均小于30mV,负载电流为150mA时的漏失电压(dropout电压)仅为120mV.     

Wideband fully differential CMOS transimpedance preamplifier

A fully differential transimpedance amplifier has been designed and implemented in 0.18 /spl mu/m standard digital CMOS technology. The parallel feedback circuit topology is adopted to broaden the bandwidth. It can operate at 10 Gbit/s with the dynamic range from 25 /spl mu/A up to 2.5 mA. The power consumption is only 88 mW under 2 V supply voltage.     

Design of an LDO with capacitor multiplier

This paper presents a low quiescent current,highly stable low-drop out(LDO) regulator.In order to reduce capacitor value and control frequency response peak,capacitor multipliers are adopted in the compensation circuit with mathematic calculations.The phase margin is adequate when the load current is 0.1 or 150 mA.Fabricated in an XFAB 0.6μm CMOS process,the LDO produces 12.2 mV(0.7%) overshoot voltage while the current changes at 770 mA/100μs with a capacitor load of 10μF.     

250 mV Supply Voltage Digital Low‐Dropout Regulator Using Fast Current Tracking Scheme

This paper proposes a 250 mV supply voltage digital low‐dropout (LDO) regulator. The proposed LDO regulator reduces the supply voltage to 250 mV by implementing with all digital circuits in a 0.11 μm CMOS process. The fast current tracking scheme achieves the fast settling time of the output voltage by eliminating the ringing problem. The over‐voltage and under‐voltage detection circuits decrease the overshoot and undershoot voltages by changing the switch array current rapidly. The switch bias circuit reduces the size of the current switch array to 1/3, which applies a forward body bias voltage at low supply voltage. The fabricated LDO regulator worked at 0.25 V to 1.2 V supply voltage. It achieved 250 mV supply voltage and 220 mV output voltage with 99.5% current efficiency and 8 mV ripple voltage at 20 μA to 200 μA load current.