Overview:
With the rapid growth and proliferation of portable devices such as tablets and smartphones, it has become increasingly difficult to implement battery management to achieve higher battery-powered system performance. The battery management system must have some intelligence to support various adapter types and battery chemistries and improve battery charging efficiency. At the same time, it is increasingly important to provide a good user experience, such as fast system startup, long battery life, and fast charging. This article will discuss how to use input current and input voltage dynamic power management (DPM) controls to improve battery charging performance to prevent system crashes and maximize adapter power, and to show you some important design considerations for extending battery life.
Introduction End-users are increasingly demanding fast charging and efficient charging. Lithium-ion (Li-Ion) batteries are an ideal choice because of their very high energy density. This battery has a high charging current and is well suited for 10-foot tablet applications and can be used for high battery capacities above 6 Ah. Tablets require excellent thermal performance and fast turn-on characteristics, even for deeply discharged batteries. These requirements present a number of design challenges for designers. The first is that if you maximize the effective power of the power supply, you can charge the battery efficiently and quickly while the power supply cannot crash. The second is how to charge the deeply discharged battery while the system is still running. Finally, how to improve the heat dissipation performance.
How does dynamic power path management maximize effective power for fast, efficient battery charging? All power supplies have their output current or power limit. For example, the high-speed USB (USB2.0) port has a maximum output current of 500 mA, while the SuperSpeed ​​USB (USB3.0) port has a maximum output current of 900 mA. If the system power demand exceeds the effective power of the power supply, the power supply will crash. When charging the battery, how do we prevent the power supply from collapsing while maximizing power output? We use three control methods: input current type DPM, input voltage type DPM, and battery replenishment mode.
Figure 1 shows a high efficiency switch mode charger using DPM control. MOSFETs Q2 and Q3 and inductor L form a synchronous switching buck battery charger. This composition method achieves the highest battery charging efficiency and makes full use of the adapter power, thus achieving the fastest battery charging. MOSFET Q1 acts as a battery reverse blocking MOSFET to prevent battery leakage from flowing through the MOSFET Q2 body diode to the input. In addition, it is used as an input current sensing component to monitor the adapter current.
MOSFET Q4 is used to actively monitor and control the battery charging current to achieve DPM. When the input power is sufficient to support both system load and battery charging, the battery is charged using the ICHG ideal charging current value. If the system load ISYS suddenly increases and its total adapter current reaches the current limit setting IREF, the input current regulation loop actively regulates and maintains the input current at the predefined input reference current IREF level. This can be achieved by lowering the charging current and prioritizing the system to achieve maximum system performance. Therefore, the input power can always be maximized without the input power source crashing, while the effective power is dynamically shared between the system and the battery charge.
Figure 1: Input current type dynamic power management (please read the PDF for details)
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