Abstract A fully integrated power delivery system with distributed on-chip low-dropout (LDO) regulators devel-oped for voltage regulation in portable devices and fabri-cated in a 28 nm CMOS process is described. Each LDO employs adaptive bias for fast and power efficient voltage regulation, exhibiting 64 ps response time of the regulation loop and 99.49 % current efficiency. An adaptive compen-sation network is also employedwithin the distributed power delivery system to maintain a stable system response within 25 to 105 C and 10 % voltage variations with a capacitive load of more than 472 pF. No off-chip capacitors are re-quired. Under a 788 mA load current step with 5 ns load edge, the power delivery system exhibits less than 15 % voltage...
Distributed on-chip voltage regulation where multiple voltage regulators are distributed among diffe...
This paper presents a fully-integrated 0.18 mu m CMOS low drop-out (LDO) regulator designed to drive...
The concept full chip integration of circuits has gained traction over the years with the push towar...
Low Dropout (LDO) voltage regulator is an important building block, especially power management ICs ...
Power management has become one of the major focus in electronics industry. It is largely based on t...
A full on chip low dropout voltage regulator (LDO) with fast transient response and small capacitor ...
Power management has increased enormously in the electronic industry with the prosperity of portabl...
Low Drop Out (LDO) voltage regulators are commonly used to supply low-voltage digital circuits such ...
Low-dropout (LDO) voltage regulators are widely used to supply low-voltage digital circuits. For rec...
Abstract: A Low-Voltage Low-Dropout(LDO) Voltage Regulator that can operate with a very small Input–...
This paper presents the design and postlayout simulation results of a capacitor-less low dropout (LD...
With the growing demand of portable devices or the emergence of Internet-of-Things (IoT) application...
A low dropout regulator is proposed in this paper. The regulator is designed with classic five pack ...
We present a CMOS low-dropout voltage regulator with a high-speed NMOS compact driver suitable for s...
The growing portable and battery powered devices have driven the power management circuits to consum...
Distributed on-chip voltage regulation where multiple voltage regulators are distributed among diffe...
This paper presents a fully-integrated 0.18 mu m CMOS low drop-out (LDO) regulator designed to drive...
The concept full chip integration of circuits has gained traction over the years with the push towar...
Low Dropout (LDO) voltage regulator is an important building block, especially power management ICs ...
Power management has become one of the major focus in electronics industry. It is largely based on t...
A full on chip low dropout voltage regulator (LDO) with fast transient response and small capacitor ...
Power management has increased enormously in the electronic industry with the prosperity of portabl...
Low Drop Out (LDO) voltage regulators are commonly used to supply low-voltage digital circuits such ...
Low-dropout (LDO) voltage regulators are widely used to supply low-voltage digital circuits. For rec...
Abstract: A Low-Voltage Low-Dropout(LDO) Voltage Regulator that can operate with a very small Input–...
This paper presents the design and postlayout simulation results of a capacitor-less low dropout (LD...
With the growing demand of portable devices or the emergence of Internet-of-Things (IoT) application...
A low dropout regulator is proposed in this paper. The regulator is designed with classic five pack ...
We present a CMOS low-dropout voltage regulator with a high-speed NMOS compact driver suitable for s...
The growing portable and battery powered devices have driven the power management circuits to consum...
Distributed on-chip voltage regulation where multiple voltage regulators are distributed among diffe...
This paper presents a fully-integrated 0.18 mu m CMOS low drop-out (LDO) regulator designed to drive...
The concept full chip integration of circuits has gained traction over the years with the push towar...