Components in Electronics May 2023

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Semiconductors

Power adapter intelligent power sharing: power efficiency

By Ahsan Zaman, director of marketing, Silanna Semiconductor P

ower adapters with multiport power sharing are devices that allow multiple electronic devices to be charged or powered simultaneously. These adapters typically have multiple output ports, each capable of delivering power to different devices including smartphones, tablets, laptops, or other USB- powered consumer electronics, smart home, IT, and industrial equipment products. Traditional multiport power adapters have limited/no dynamic power sharing ability and power each device with equal or a pre-set power delivery level. All connected ports will receive the same maximum power output, regardless of the type of device and their battery charge levels. For example, a 40W 2C charger will deliver 20W to each device regardless of their battery levels. One of the key features of power adapters with multiport power sharing is the ability to dynamically allocate power among the different output ports based on the actual power requirements. This means that the adapter can intelligently distribute the available power across the connected devices, ensuring that each receives the appropriate amount of power for efficient charging or operation. Power adapters with multiport power sharing usually come with various charging technologies, such as USB Power Delivery (USB-PD) or Qualcomm Quick Charge, which provide fast charging capabilities for compatible devices. These adapters may also have additional safety features, such as overvoltage protection, overcurrent protection, and short circuit protection, to safeguard the connected devices from potential power-related risks.

The convenience of having multiple output ports in a single power adapter with power sharing capability allows users to reduce clutter and simplify their charging setup, making it ideal for home, office, or travel use. It can also be a cost-effective solution for powering multiple devices simultaneously without the need for individual power adapters for each device.

36 May 2023

Figure 1: Adaptive intelligent power sharing

Multiport power sharing example The power sharing feature of the SZPL3002A buck converter IC is designed to efficiently distribute power among multiple devices connected to the charger or adapter. As an example, for a 65W multiport adapter, when a single device is plugged in, the PD Controller communicates with the device to determine its power requirements and if the device has a low battery level of 20 per cent, it will receive 100 per cent of the available power. When a second device is added, the PD Controller will communicate with the new device to establish its power needs. For instance, if the second device is a smartphone with a battery level of 30 per cent, the PD Controller will reduce the power allocated to the first device to 57.5W and allocate 7.5W to the smartphone.

Similarly, when a third device is added, the communication loop is repeated to establish the new power requirements. The power allocated to the first and second channels may be further adjusted based on the battery levels

Components in Electronics www.cieonline.co.uk.uk

of all connected devices. This ensures that the maximum output of multiport adapter is shared among the devices that need power the most, using an adaptive power sharing algorithm. As the battery level of the first device increases, the power IC allows for power rebalancing without establishing a new contract, allowing for efficient redistribution of available power. For example, the power allocated to the first device may be reduced

by 10W, and the additional 10W may be redirected to the second device.

By integrating the buck converter and the PD Controller into a single IC package, the SZPL3002A simplifies the design of 65W fast charger and adapter applications with up to four ports, while ensuring efficient power sharing among connected devices. The SZPL3002A is a high-efficiency synchronous buck converter with a selectable

Figure 2: SZPL3002A buck converter IC with a built-in USB PD/FC port controller

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