Archives for March 2018

March 22, 2018 - No Comments!

How the Iot Hardware Is Made

Have you ever thought of creating your own IoT product and bringing it to the market? If so, creating the electronic part of the project was surely one of the biggest issues. But did you find the solution to resolve it?

There are many firms on the market including startups, that don’t have the resources to work on the hardware area of their products. Many of them intent to create the whole project but they fastly realize that the process is much more complex and demanding that they thought before. What’s more, the feasibility stadium of ideas is often not appropriately analyzed, which provokes bigger delays and costs.

#1 Checking the feasibility of an idea

This is the first, extremely important phase when creating the IoT electronics. Without specifying whether given assumptions are technically feasible, you can’t begin designing the electronics. When you’re sure that the project is profitable and feasible to create, you may start working on the actual parts of the product, such as electronics. The first step is analyzing what are the requirements for certification. On this stage you have to find out what certificates your firm should acquire in order to legally distribute the product. Just remember, that depending on the usage and the destination of it, the requirements can be drastically different. The expectations are huge!
Remember, that all certification requirements should be included in the final project.

2# Working on the first iteration

Next, start with designing and producing your first prototype of the product. It’s worth to mention, that the preparation of electronics along with software may or even should happen simultaneously. Although it requires additional resources, it definitely lowers the time of producing the first prototype. Additionally, in case of any sudden issues to solve, there’s smaller probability that the project will be delayed or will get stuck. What’s more, all difficulties, that require dynamic introduction of changes can be resolved much faster and in a more efficient way.

3# Preparing prototypes

Preparing prototypes is the next stage when creating an iteration. The process begins with acquiring imprescindible components and establishing the pricing of elements. The list of all parts used during the process is called the Bill of Materials. On its’ basis we may create the first prototype that should be accepted by our client. After the first approval, the next stage should be preparing the PCB design project along with the product documentation, that must be also revised by a client. Moreover, at the same time the process of building the first archetype should start. It consists of smaller tasks such as: the revisal of the material list, ordering components and the PCB, gathering all required elements and at the end - building a prototype by combining all these parts together. The final work of this stage should result in a ready hardware prototype part, though without the embedded software.
As mentioned before, you may continue working on the required software which consists of several, smaller subsequents:

  • launching the programme environment
  • preparing the main algorithms
  • launching the necessary libraries
  • configuring peripherals
  • writing the program code

The last element should be debugging the code, which should start at the same time as launching the first, ready-made hardware prototype. As a result, the software development process should end successfully, through implementing the software on the hardware part of the prototype.

4# Launching the first prototype

When it comes to the stage of launching the first prototype of the product - it should end
with transferring the device to the customer for evaluation and acceptance. The client will be able to see how the finished device will work. It’s the most important stage of a client’s verification, because at this stage most comments occur. In the next step, after the evaluation of a potential solution, the prototype should be tested in accordance with the required certification process, analyzed at the very beginning of the project. This step completes the process of the first iteration. When the first prototype of the product is ready, it’s time to implement changes. Then the second iteration of the prototype begins.

5# Documenting and modifying

Next stage is the PCB modification and gathering the product documentation. Now you can begin working on the second prototype and you should pay attention to:

  • revising the components’ list
  • ordering all required parts
  • creating PCB
  • completing the components

During the second iteration, implementing changes in the software area can happen simultaneously with working on schemes’ modification. All corrections in software should be introduced before launching the second prototype, so after finishing the update of both software and hardware part, the device should be revised once again by a client. The final stage of the second iteration should rely on conducting tests, according to the plan. Usually, it’s the last step in the process of creating the IoT electronics.

It’s worth to mention, that in some cases, the project should be subjected to another iteration. The decision about introducing other modifications, should be made on the basis of a client’s judgement along with tests’ results. You should be aware that additional changes require time along with human and financial resources.

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March 7, 2018 - No Comments!

Women in Engineering: Why There Should Be More of Us

I was always encouraged to discover my abilities in fields I found interesting, and the truth is -
I have always been interested in how things work. My passion for technology started in school from a very prosaic reason - a broken computer. It was one of the triggers that simply made me curious about building and repairing devices. I followed the idea later on and began my studies at the University of Science and Technology. During the studies, everyone tried to inspire and motivate us - 17 girls out of almost 300 Electrical Engineering students. Many of us after graduating, chose the path of being a developer. I started to plan my career and look for opportunities. The more I’ve read, the more stereotypes I’ve found.

The changing perception of a female engineer

One of them was a conviction that it’s really hard to preserve that feminine aspect while being a female engineer. I’m a woman who likes soldering in high heels, so I believe there’s no such thing I can’t do while wearing a skirt.  
Many times I heard opinions of my female colleagues that were insecure of the other team members’ reaction. When I started my career, I came across nothing but admiration of my courage, my technical skills and ideas. Everyone was always open and glad to help, so we quickly developed an effective communication and a great relationship that lasts till today (sending love to our software embedded team!)
Another common issue is a matter of passion. Everyday I come across opinions that engineering is probably the biggest passion of mine. I’m a hardware engineer, but except diving into technical news and projects’ insights, I’m also crazy about cooking and dancing. So when I’m not at my desk right now developing products, search for me at dancing or cooking classes!

Unbelievable facts and statistics

Did you know, that only 9% of the engineering workforce is female? What’s more, the proportion of women studying engineering did not change since 2012! With the engineering industry facing a problem of finding qualified professionals, it is crucial to encourage future engineers to work in this industry.
As for outstanding skills presented by female engineers, the ability of quick learning and multi-tasking was mentioned many times by employers. They also consider diversity in their teams as a strong positive factor, that has an enormous impact on their employees’ productivity. And they’re right!

In our team, we exchange ideas on a daily basis, and the important thing is - we have different points of view. Such various opinions enrich the communication and are the key to resolve complicated issues. We perceive solutions in a different way, and at the end, we choose the perfect, most advisable one.

My advice to every woman interested in engineering?

The world is more and more open, people are always positively surprised and the possibilities are endless. Enabling women to meet their full potential in work could add as much as $28 trillion to annual GDP in 2025. Diversity is crucial for innovation: in a global survey, 85% corporate diversity and talent leaders agreed that a diverse and inclusive workforce is crucial to encouraging different perspectives and ideas that drive innovation.
Working in a tech environment gives you plenty of opportunities and makes you more creative every single day.
If engineering is your passion, go for it!


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