SLYT803B october   2020  – october 2020 BQ24610 , BQ25713 , BQ25790 , LM66100 , LM74700-Q1

 

  1.   1
  2. Introduction
  3. Understanding Battery Packs
  4. Stackability Requirements for Battery Packs
  5. A Multibattery Management System Design
  6. Battery Charging
  7. Battery Gauging and Protection
  8. DC-to-DC Converter or Controller Stage (Boost or Buck-boost Stage)
  9. ORing Control
  10. Load Sharing
  11. 10Conclusion
  12. 11References
  13. 12Related Web Sites

1 Introduction

Patients in a hospital intensive-care unit require constant monitoring with equipment that must have continuous power. Any loss of patient data is completely unacceptable in critical medical applications; plus, a power failure is likely to damage expensive electrical components in scanning equipment.

Medical ultrasound imaging is a diagnostic technique that enables the visualization of a person’s internal organs, including their size, structure and an estimate of their blood flow. Ultrasound scanners are available in premium, cart-based, portable and smart-probe versions, depending on the number of transmit and receive channels. Premium and cart-based ultrasound scanners are typically line-powered; however, they have multiple battery-packs to support backup power.