A Low Quiescent Biased Regulator With High PSR Dedicated to Micropower Sensor Circuits

Ong, G. T.; Chan, P.K.

doi:10.1109/jsen.2009.2038793

Cited by 14 publications

(7 citation statements)

References 33 publications

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“…In this design, is about 10% of at no load. The simplified MFL loop gain function is given by (17) with and the same as (9) and (12), and …”

Section: Stability Analysismentioning

confidence: 99%

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An Output-Capacitor-Free Adaptively Biased Low-Dropout Regulator With Subthreshold Undershoot-Reduction for SoC

Zhan

2012

IEEE Trans. Circuits Syst. I

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This paper presents an output-capacitor-free adaptively biased low-dropout regulator with subthreshold undershootreduction (ABSTUR LDR) for SoC power management applications. Techniques of adaptive biasing (AB) and Miller compensation with Q-reduction are employed to achieve low-voltage highprecision regulation with extended loop bandwidth while maintaining low quiescent current and high current efficiency. The pass transistor is designed to work in the linear region at heavy load to save silicon area, and a symmetrically matched current-voltage mirror is used to implement the AB scheme with accurate current sensing for the full load range. The dedicated STUR circuit, which is low-voltage compatible and consumes very low current in the steady state, is inserted to momentarily but exponentially increase the gate discharging current of the pass transistor when the LDR output has a large undershoot due to a large step up of the load current. Undershoot voltage is hence dramatically reduced. Stability of the ABSTUR LDR is thoroughly analyzed and tradeoffs between the undershoot-reduction strength and the light load stability are discussed. Features of the proposed ABSTUR LDR are experimentally verified by a prototype fabricated in a standard 0.35-m CMOS process.

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“…In this design, is about 10% of at no load. The simplified MFL loop gain function is given by (17) with and the same as (9) and (12), and …”

Section: Stability Analysismentioning

confidence: 99%

“…However, the low-and fixedstrategy in the previous designs limits the achievable loop bandwidth. As a result, the power supply rejection (PSR) and the output impedance can hardly attain wide bandwidth (the lowest frequency at which PSR and are better than specified worst-case values [17]). …”

Section: Introductionmentioning

confidence: 99%

An Output-Capacitor-Free Adaptively Biased Low-Dropout Regulator With Subthreshold Undershoot-Reduction for SoC

Zhan

2012

IEEE Trans. Circuits Syst. I

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“…This influence not only includes DC voltage levels (line regulation), but also any AC distortion. The independence of the output voltage from the input is called power supply rejection (PSR) (Ong and Chan, 2010). In literature also often the term PSRR (power supply rejection ratio) (Baker, 2010;Holberg, 2010) is found, which is more true for amplifier as there a ratio between the signal amplification and the power distortion damping exists, while in regulators only the power distortion damping is of interest.…”

Section: Introductionmentioning

confidence: 99%

Best usage of free-space capacitors in ASIC regulators

2013

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Abstract. In this work we examine how to improve the performance of voltage regulators in application specific integrated circuits (ASICs) by placing capacitors into free layout space. The problem arising after layout, when there are areas not covered by functional elements, is where to connect the free-space capacitors (FSCs), as they can be connected to the input or the output net of a voltage regulator. Therefore we designed a testbench for mathematical calculations and one for simulations to identify the influence of a capacitance connected at these certain positions. We mainly focused on PSR analysis while not losing sight of transient effects. The results of calculation and simulation illustrate that the best solution is to split the capacitance half by half to both possible nets if no output capacitance was installed during design. Otherwise a ratio of one to one for input capacitance to output capacitance has to be set up for best performance.

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“…is limited by the nonlinear temperature effect existing in V GS (T). In addition, due to the simple current source structure, the line sensitivity or PSR performance is relatively poor which constrains its capability for applications requiring a good immunity against the fluctuation of supply voltage [90], [91].…”

Section: Linear Resistor Based V Th Reference Circuitmentioning

confidence: 99%

Design of low-power PVT-aware circuits for power management applications

Wang¹

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A Low Quiescent Biased Regulator With High PSR Dedicated to Micropower Sensor Circuits

Cited by 14 publications

References 33 publications

An Output-Capacitor-Free Adaptively Biased Low-Dropout Regulator With Subthreshold Undershoot-Reduction for SoC

An Output-Capacitor-Free Adaptively Biased Low-Dropout Regulator With Subthreshold Undershoot-Reduction for SoC

Best usage of free-space capacitors in ASIC regulators

Design of low-power PVT-aware circuits for power management applications

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