A low-voltage, low quiescent current, low drop-out regulator

Abstract: The demand for low-voltage, low drop-out (LDO) regulators is increasing because of the growing demand for portable electronics, i.e., cellular phones, pagers, laptops, etc. LDO's are used coherently with dc-dc converters as well as standalone parts. In power supply systems, they are typically cascaded onto switching regulators to suppress noise and provide a low noise output. The need for low voltage is innate to portable low power devices and corroborated by lower breakdown voltages resulting from reductions … Show more

“…While the impedance-attenuated-buffer in [11] is dynamically biased, the error amplifier in [11] is statically biased, making simultaneous optimization of the LDO speed and current consumption difficult. Alternatively, adaptive biasing techniques have been proposed that boost the bias current during fast output transitions [12,13,18], yielding a promising technique for fast and power efficient load regulation. The LDO in [13], however, utilizes a 1 lF off-chip capacitor to stabilize the voltage regulation, significantly increasing the response time of the regulation loop.…”

“…To achieve a fast transient response for a load current step of hundreds of microamperes, the quiescent current of an LDO is typically increased [8,18], lowering the current efficiency. Dynamically biased shunt feedback, proposed in [11], has been applied to achieve high current efficiency and system stability over a wide range of load currents.…”

Distributed LDO regulators in a 28 nm power delivery system

“…While the impedance-attenuated-buffer in [11] is dynamically biased, the error amplifier in [11] is statically biased, making simultaneous optimization of the LDO speed and current consumption difficult. Alternatively, adaptive biasing techniques have been proposed that boost the bias current during fast output transitions [12,13,18], yielding a promising technique for fast and power efficient load regulation. The LDO in [13], however, utilizes a 1 lF off-chip capacitor to stabilize the voltage regulation, significantly increasing the response time of the regulation loop.…”

“…To achieve a fast transient response for a load current step of hundreds of microamperes, the quiescent current of an LDO is typically increased [8,18], lowering the current efficiency. Dynamically biased shunt feedback, proposed in [11], has been applied to achieve high current efficiency and system stability over a wide range of load currents.…”

Distributed LDO regulators in a 28 nm power delivery system

“…In commercial systems, this technique is called the point of load (POL) supply [25]. LDOs operate in the same manner as standard NPN regulators apart from the pass transistor being replaced by a single PNP or a PMOS transistor which can hold its output voltage in regulation with much lower voltage differences across the series element [16][17][18]26].…”

“…In the power conversion area, dominated by switching power supply based DC-DC converter techniques, low dropout regulators (LDO) were introduced to address the requirements of noise-sensitive and fast transient loads in portable devices [16][17][18][19][20][21][22][23][24]. In an LDO where V in is the unregulated input voltage and V out is the regulated output voltage, if the control circuits consume minimal power compared to the output power, the approximate efficiency is given by,…”

Laplace transform-based theoretical foundations and experimental validation: low-frequency supercapacitor circulation for efficiency improvements in linear regulators

“…Additionally it provides more noise at the regulated output due to its switched operation [3]. The low-dropout (LDO) voltage regulators is one of the most popular power converters used in power management [4] and is more suitable for an implanted system. The pass element can be implemented using bipolar or MOS transistors.…”

An unconditionally stable Voltage Regulator