The development of the Universal Serial Bus, or commonly known as a USB, has received a few format changes since its production in 1996. Its use for data and power delivery has improved over the years to adapt to the needs of modern devices.
Many gadgets, from smart appliances to modern laptops, rely on USB connectors for both data delivery and power-charging functions. The latest advancement in the USB format is the USB Type-C connector, which increases the power delivery capacity besides its data transfer speed.
The USB Type-C format
The USB Type-C boasts a compact and reversible design, which can finally put a stop to the multiple trial and errors that users do in finding the right orientation when connecting it to another device. Although the USB Type-C is notably more expensive than its predecessors, its power delivery standards make it a viable alternative in transferring energy of up to 100W.
Besides its physical form, its highlighted feature is the increased delivery of moderate levels of power for a wide range of electronic products. Its sophisticated design, paired with considerably low development costs, makes it a viable standard for the adoption of modern models of gadgets in the future globally.
Data transmission vs Power delivery speed
A user who wants to utilise either USB data or power protocols doesn’t necessarily have to adapt to a Type-C connector format. It is an option for product manufacturers to gauge which option to go for depending on their purposes.
Many people make the mistake of confusing the labels of the USB Type-C and 3.1 Gen 2 as being in the same concept. The USB Type-C connector is related to the data delivery standards of USB 3.1 Gen 2, but they’re not strictly paired together. It means that a USB connector can use a specific model of a connector, such as the USB Type-C, without necessarily implementing a USB 3.1 Gen 2 or USB Power Delivery protocol.
Advancements in USB connectors need to maintain balance in the implementation of newer models and the compatibility of older versions. For example, previous versions of the USB standard were set at 5V. However, the USB Power Delivery Standard can range from transferring 9, 15, and even 20 V, with power levels reaching up to 100 W.
USB Type-C and USB Power Delivery products
The benefit of using USB Power Delivery products is its ability to create a single power source to provide energy to various products. For example, a USB Power Delivery can be used to charge cell phones, tablets, smartwatches, and even specific laptop models. All of these products are starting to adapt their hardware specifications to be compatible with the universal Type-C format. The portability of using a USB Power Delivery power source in maintaining different power loads for particular gadgets makes it an effective energy backup when travelling.
Conclusion
The USB Type-C’s growth as a viable method of increasing USB Power Delivery devices has shown a groundbreaking advancement on USB standards. Although it may spell the discontinuation of older USB models, the USB Type-C is expected to be used for many traditional 5V devices due to its small size and low production cost compared to dedicated charging units.
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