The world we live in today is innovative, forward-thinking, and technology-driven. For business owners and product designers, developing the next innovative tech product could mean serious profits. This is especially true for drones, GPS, and IoT smart devices. For instance, the drone market will skyrocket to nearly $150 billion by 2025. The GPS market is also on a similar growth trajectory as well.
IoT smart devices, like smart home and other tech innovations, have a market estimate growth of $1.2 trillion in just two short years. That’s insane growth. What does this all mean? It means producing these types of products can create new solutions, and new profits for your business.
Most drones, GPS, and IoT smart devices will need a very focused design process due to the advanced electronic components needed. To make product design easier, there are a few tips and tricks to adhere to. For example, utilizing printed circuit board (PCB) design, and an RF PCB design software to gain a design advantage over devices currently on the market, and new ones you’ll be competing with after launch.
With the right tools in place, the design process certainly becomes simplified. However, be sure to implement the following throughout the process. Let’s take a closer look.
Every drone, GPS, or smart device design is unique in certain aspects. However, there are always guidelines that need to be adhered to for successful production. Unless you plan on manufacturing the products yourself, you will need to check with the designated manufacturer to get the material requirements.
These materials will be at the forefront of your mind during the design process. For example, some requirements for paper phenolic mixture and glass cloth and epoxy could hinder production if not considered when designing. If a mistake is made here, it could require a redesign. This could be a costly mistake.
One critical aspect of designing a new tech product with advanced electronic components is node placement. This should be considered in your sketches before PCB design is done. The reasoning behind this is to ensure nodes can be accessed easily to test the product.
If nodes are obstructed, the testing process could prove very difficult and cost time and money. Ensure test points are labeled with access to nodes that can be looped. This will streamline the design and make the next steps easier.
Having nodes accessible with good testing points is only the beginning. You also need to have plenty of space between electronic components for your new drone, GPS, or IoT smart device PCB design. But this can be tricky.
It’s a delicate balance between having good spacing and ensuring your product is as sleek and usable as possible. But when you get that balance, you’ll find the design coming together with production made easier as well.
Once you have spacing, you can begin developing the wiring directions for your product design project. This will go a long way when it comes time for the prototype, and later the actual assembly of the drone, GPS, or IoT device at scale.
You can employ vertical traces for one side or area of the product design with horizontal traces for the other. This can be even more helpful when multiple layers are used. Be forward-thinking in the process and consider end-stage efficiency.
The above covers a few must-do basics when it comes to product design tips. There are plenty more where those came from, so research on your product of choice is essential for success. For instance, a drone may have more electronic component considerations than a GPS device for dogs, thus changing the PCB design process.
What’s more important is end user. You may have the greatest product design in the world, but if you don’t have a market to bring it to, you just wasted a lot of time and money. Find the problem you want to solve with a new drone, GPS, or IoT device, ensure it is a common problem, and then create your product with that market in mind.
The above should be a good starting point. Do you have any design tips for drones, GPS, or IoT devices? We want to hear from you.