Smart Wearable Devices are divided across several industries as well. Most of the practices of wearable devices turn around infotainment, technical methods, fitness, health, healing, and army. Embedded Hardware Design is a one-factor that becomes the decide the success behind a wearable device.
Occasionally the connection of the users towards adopting a wearable device is prime serviced by the process the product looks. But, there is a lot more to a product than just its aspects. One of the main factors that affect the achievement of a wearable product is Embedded Hardware Design. Several other elements also provide to the completion of a wearable device.
Let’s pop into the factors that influence the Hardware Design in Smart Wearable Devices:
Picking the best battery
There are several elements in wearable devices including microcontrollers and sensors This means that these elements need the capability to make their tasks. This is where the battery comes into the picture in Embedded Hardware Design. There are many challenges, as there are some limitations to wearable devices. Firstly, wearable devices require to be small size and they are also compact. Hence, we also have to choose a battery as per the design factor.
So maintaining the compressed nature of the design factor, one of the batteries’ prototypes for wearables is lithium-polymer. They provide excellent flexibility as they are accessible in several sizes and they can also be customized. Apart from these, they are also rechargeable
They are also rechargeable which also makes it perfect for wearables. But, if you need to go for a custom battery, it also wants to support testing and UL certification before it can be practiced in a device.
Human Factors Engineering
When it comes to Embedded Hardware Design, a lot of importance has to be placed on human representatives. There can be many varieties of use-related risks that have to be examined ere the development method starts. Human factors can enter any risk created by defects in the device, the result of any sort of radioactivity released by the device, any harm created to the human body, and usability. These are just a few possible factors among many others, which need to be addressed before the development process begins or during its course.
Companies should follow regulative standards to evade any risks or malfunctions when we talk about human factors.
When it comes to human factors engineering, companies should follow regulatory guidelines to avoid any hazards or failures. Wearable companies can also carry interviews with people or groups and try to know their presumption from a wearable device. Handling tests with users can be transferred between redundancies to take their feedback or communications and execute changes to enhance the product.
Energy Potent Connectivity Protocols
Several connectivity protocols can be applied including ZigBee, Zwave, Bluetooth, amongst others. Though, there is a requirement to have low energy connection protocols, by which you can transfer data without utilizing much power. This is extremely crucial when it comes to wearable devices. One of the well known used connectivity protocols is Bluetooth 4.2. Several wearable devices have Bluetooth LE connectivity.
This is an excellent alternative when you have to transfer small quantities of data or only transfer across operational leadership particularly in 2.4GHz range. Because of low energy consumption, it also allows a broader range as it does not require more 3V battery to work.
Low power consumption provides a reduction in the measurement of the battery, as well as the size and weight of the product. This in aid also decreases the cost. Aside from the benefits a connectivity protocol may have, it also requires to be something that is generally accepted, so that it can connect to other devices quickly.
Low Power Design
Power Consumption is one of the most essential factors to consider while developing a wearable device. Low power consumption is important to wearable designs and many developers are shifting to low power consumption design that is helpful to make the device long-lasting before each charging cycle.
Smart Wearable Devices are a growing component of various industries and they have grown from just being a newness part or just as infotainment section. Users need higher efficiency, usability, and support from their wearables and this needs partners who have the expertise, skill, and knowledge of the industry.