A Single Inductor Dual Output Synchronous High Speed DC-DC Boost Converter using Type-III Compensation for Low Power Applications

This paper presents a high speed synchronous single inductor dual output boost converter using Type-III compensation for power management in smart devices. Maintaining multiple outputs from a single inductor is becoming very important because of inductor the sizes. The uses of high switching frequency, inductor and capacitor sizes are reduced. Owing to synchronous rectification this kind of converter is suitable for SoC. The phase is controlled in time sharing manner for each output. The controller used here is Type-III, which ensures quick settling time and high stability. The outputs are stable within 58μs.The simulation results show that the proposed scheme achieves a better overall performance. The input voltage is 1.8V, switching frequency is 5MHz, and the inductor used is 600nH. The output voltages and powers are 2.6V& 3.3V and 147mW&, 230mW respectively.

[1]  Chi-Ying Tsui,et al.  A single-inductor dual-output integrated DC/DC boost converter for variable voltage scheduling , 2001, Proceedings of the ASP-DAC 2001. Asia and South Pacific Design Automation Conference 2001 (Cat. No.01EX455).

[2]  Kang-Yoon Lee,et al.  Digital Error Correction for a 10-Bit Straightforward SAR ADC , 2015 .

[3]  S. Mapus Predictive gate drive boosts synchronous dcidc power converter efficiency , 2003 .

[4]  S. G. Lee,et al.  Non-load-balance-dependent high efficiency single-inductor multiple-output (SIMO) DC-DC converters , 2012, Proceedings of the IEEE 2012 Custom Integrated Circuits Conference.

[5]  Kang-Yoon Lee,et al.  High speed DC-DC synchronous boost converter using type-III compensation for low power applications , 2015, 2015 IEEE International Conference on Consumer Electronics (ICCE).

[6]  Kang-Yoon Lee,et al.  3.7V high frequency DC-DC synchronous boost converter with smooth loop handover , 2014, 2014 14th International Symposium on Communications and Information Technologies (ISCIT).

[7]  Jiann-Jong Chen,et al.  A sub-1V voltage-mode DC-DC buck converter using PWM control technique , 2010, 2010 IEEE International Conference of Electron Devices and Solid-State Circuits (EDSSC).

[8]  Kang-Yoon Lee,et al.  Design of 10-bit 10MS/s Time-Interleaved Flash-SAR ADC Using Sharable MDAC , 2015 .

[9]  Laszlo Balogh Design And Application Guide For High Speed MOSFET Gate Drive Circuits By , 2006 .

[10]  Albert T. L. Lee,et al.  Scalability of Quasi-Hysteretic FSM-Based Digitally Controlled Single-Inductor Dual-String Buck LED Driver to Multiple Strings , 2014, IEEE Transactions on Power Electronics.

[11]  Andreas G. Andreou,et al.  Low-voltage/low-power integrated circuits and systems : low-voltage mixed-signal circuits , 1999 .

[12]  Franco Maloberti,et al.  A 200mA 93% Peak Efficiency Single-Inductor Dual-Output DC-DC Buck Converter , 2007, 2007 IEEE International Solid-State Circuits Conference. Digest of Technical Papers.