In this paper we present an asynchronous finite-state machine digital controller co-integrated with an on-chip non-inverting buck-boost power converter with dynamic signal-tracking capabilities. The mostly-digital controller functionally implements a non-PWM zone-wise control law through asynchronous circuitry, thus exhibiting self-timed minimum latency and ultra low power operation due to gate switching activity. Experimental results on a 0.35 lm CMOS technology demonstrate an efficiency up to 80 % with a switching frequency of 2.86 MHzPeer Reviewe
This paper presents the design of a synchronous non-inverting buck-boost DC-DC converter on a Silico...
This paper investigates a mixed synchronous/asynchronous digital voltage-mode controller for DC–DC c...
The main goal of the project is to implement, test, and compare a new control scheme for DC-DC conve...
In this paper we present an asynchronous finite-state machine digital controller co-integrated with ...
A fully digital self-adjusting high efficiency power supply system has been developed based on an FS...
This paper investigates the application of a mixed-signal synchronous/asynchronous digital controlle...
This paper investigates the application of a mixed-signal synchronous/asynchronous digital controlle...
In this paper a digital control approach is investigated for time-optimal load step response of DC-D...
Abstract--- This paper investigates the application of a mixed synchronous/asynchronous digital cont...
This paper focuses on a mixed-signal IC realization of a digitally controlled power converter which ...
In this paper a digital control approach is investigated for time-optimal load step response of DC-D...
In this paper, a digital control approach is investigated for time-optimal load step response of DC-...
Abstract- This paper focuses on the non-inverting buck-boost converter supplying an adjustable DC vo...
Abstract- A low voltage buck DC-DC converter (0.45-V input, 0.4-V output) with on-chip gate boosted ...
This paper aims to develop a novel adaptive gate switching controller (AGSC) for discontinuous condu...
This paper presents the design of a synchronous non-inverting buck-boost DC-DC converter on a Silico...
This paper investigates a mixed synchronous/asynchronous digital voltage-mode controller for DC–DC c...
The main goal of the project is to implement, test, and compare a new control scheme for DC-DC conve...
In this paper we present an asynchronous finite-state machine digital controller co-integrated with ...
A fully digital self-adjusting high efficiency power supply system has been developed based on an FS...
This paper investigates the application of a mixed-signal synchronous/asynchronous digital controlle...
This paper investigates the application of a mixed-signal synchronous/asynchronous digital controlle...
In this paper a digital control approach is investigated for time-optimal load step response of DC-D...
Abstract--- This paper investigates the application of a mixed synchronous/asynchronous digital cont...
This paper focuses on a mixed-signal IC realization of a digitally controlled power converter which ...
In this paper a digital control approach is investigated for time-optimal load step response of DC-D...
In this paper, a digital control approach is investigated for time-optimal load step response of DC-...
Abstract- This paper focuses on the non-inverting buck-boost converter supplying an adjustable DC vo...
Abstract- A low voltage buck DC-DC converter (0.45-V input, 0.4-V output) with on-chip gate boosted ...
This paper aims to develop a novel adaptive gate switching controller (AGSC) for discontinuous condu...
This paper presents the design of a synchronous non-inverting buck-boost DC-DC converter on a Silico...
This paper investigates a mixed synchronous/asynchronous digital voltage-mode controller for DC–DC c...
The main goal of the project is to implement, test, and compare a new control scheme for DC-DC conve...