The bq25504 from Texas Instruments is a good candidate to become a milestone on the road to micro-power management and energy harvesting. A prominent feature of this IC is its ability to start up at a supply voltage as low as 330 mV typically, and 450 mV guaranteed. With an SMD inductor and a few capacitors and resistors, it forms a dc-dc converter with a high power efficiency that is unprecedented, especially in the ultralow-power region.
A possible explanation for this breakthrough in achieving an extremely low value of start-up voltage could be the use of an internal oscillator based on submicron-wide-channel FET transistors. It is known that the narrower the FET’s channel is, the lower its threshold value of gate-source voltage will be—down to a few hundred millivolts. You could assume that FETs in the internal oscillator of the bq25504 have a threshold voltage on the order of 200 mV.
The bq25504 from Texas Instruments is a good candidate to become a milestone on the road to micro-power management and energy harvesting. A prominent feature of this IC is its ability to start up at a supply voltage as low as 330 mV typically, and 450 mV guaranteed. With an SMD inductor and a few capacitors and resistors, it forms a dc-dc converter with a high power efficiency that is unprecedented, especially in the ultralow-power region.
A possible explanation for this breakthrough in achieving an extremely low value of start-up voltage could be the use of an internal oscillator based on submicron-wide-channel FET transistors. It is known that the narrower the FET’s channel is, the lower its threshold value of gate-source voltage will be—down to a few hundred millivolts. You could assume that FETs in the internal oscillator of the bq25504 have a threshold voltage on the order of 200 mV.
Figure 1 By exploiting the inherent weights of VBAT_UV and VBAT_OV inputs as 2/3:1, you can save at least two precision resistors in many applications. (IC1 is shown from the bottom view since, if breadboarding, the package style requires connections from the bottom.)
For more detail: DC-DC converter starts up and operates from a single photocell
About The Author
Ibrar Ayyub
I am an experienced technical writer holding a Master's degree in computer science from BZU Multan, Pakistan University. With a background spanning various industries, particularly in home automation and engineering, I have honed my skills in crafting clear and concise content. Proficient in leveraging infographics and diagrams, I strive to simplify complex concepts for readers. My strength lies in thorough research and presenting information in a structured and logical format.
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