A Boost Converter with 3-6V Input and Fast Transient Digital Control Comprising a 90 ns-Latency Live-Tracking Window ADC.

authored by
Samuel Quenzer-Hohmuth, Steffen Ritzmann, Thoralf Rosahl, Bernhard Wicht
Abstract

This paper presents a digitally controlled boost converter IC for high output voltage and fast transient applications. Thus, it is well applicable in automotive and industrial environments. The 3 V-to-6 V input voltage, 6.3 V output voltage, 1 A boost converter IC is fabricated in a 180 nm BCD technology. Digital control enables cost savings, advanced control concepts, and it is less parameter sensitive compared to common analog control. A 90 ns latency, 6-bit delay line ADC operates with a window concept, meeting high resolution requirements, e.g. in car battery applications. An output voltage live tracking is included for extending the ADC conversion window. A charge pump DAC provides high resolution, monotonicity, and short 128 ns conversion time. Further, a standard digital PI controller is enhanced by a simple but effective Δ V/Δt-intervention control. It results in 2.8x reduced output voltage deviations in case of load steps, scaling down the output capacitor value by the same factor.

Organisation(s)
Mixed-Signal Circuits Section
Type
Paper
Pages
130-133
No. of pages
4
Publication date
2018
Publication status
Published
Peer reviewed
Yes
ASJC Scopus subject areas
Electrical and Electronic Engineering, Instrumentation
Electronic version(s)
https://doi.org/10.1109/esscirc.2018.8494242 (Access: Closed)