PCB Design

Up and Coming PCB Designs

We know the importance of PCBs in our tech-savvy world. The continual advancements in modern technology creates a need for continual advancements in printed board circuits. There is a demand for smaller, more elegant, and dependable PCB designs. These new designs are used from PC manufacturing to new medical technology. The constant development of new printed board circuit designs allows the technology industry to keep inventing new ways to make our lives a little easier and in some cases healthier. Today, we are going to explore some of the advancements that we are already benefitting from and what is in store for the future of the PCB Fabrication Industry.
Board Cameras are now being used in medicine to make diagnostic testing much more comfortable for patients. Instead of a large, uncomfortable scope or camera being inserted into the area of the body that is being examined, the patient can now swallow a camera that will collect the necessary information that a physician needs to make a diagnosis. One example of this is called Capsule Endoscopy, the patient will swallow the disposable “pill” which will take up to fifty thousand pictures of your digestive tract. The pill travels out of the body through a bowel movement and can be flushed away.
Vertical Conductive Structures (VeCS) is the invention of Joan Tourné will offers a less expensive alternative for challenging fan-out projects to fine-pitch grid array components. Although still in the testing phase of development, Tourné states “Not only can we achieve higher interconnection density by packing more vertical connections in a smaller space, at the same time we can increase conductor router channel density under grid array components.” He continues to explain that PCB Fabricators will not experience additional cost with this method since the technology required is already being used by high-end shops after the appropriate training and licensing. We will have to wait and see if this new method will prove beneficial to the PCB Fabrication industry.
GaNonCMOS project consortium is currently working on a project that will use energy efficiency using GaN power switches and CMOS drivers. Collaboration on this project began in January 2017, the goal is to work with optimized embedded printed circuit boards creating integrated power components for less expensive, better-functioning systems. That sounds wonderful, let’s hope that it works!
Newer, better, stronger. PCB designs are the backbone of any electronic device. They provide us the ease of access to information around the world, they allow us to stay in constant contact with our loved ones and are beginning to play a vital role in medical technology. Smaller, elegant, smarter. PCB Fabricators are constantly challenged to create innovative boards to further our thirst for the technological and make our world an easier place to live.

Starkey, Pete. 2017. Vertical Conductive Structures–a New Dimension in High-Density Printed Circuit Interconnect Accessed March 9, 2017
Prophet, Graham. 2017 Consortia to develop GaN processes and PCB panel-level packaging Accessed March 9, 2017

PCB That Fits Your Need

The Best Printed Circuit Boards That Fit Your Needs

The Best Printed Circuit Boards That Fit Your Needs

Printed Circuit Board; commonly known as PCB is an electrical component that supports electrical and mechanical connections through the use of conductive tracks, pads and several other features which are etched from copper sheets which are mainly laminated onto a non-conductive substrate. Printed Circuit Boards and other boards, in general, have many advantages compared to other interconnection wiring methods and component mounting techniques. To be precise, the wiring board reduces the space required to come up with the whole system thus reducing the weight of the system. Moreover, Printed Circuit Board wiring and assembly can be mechanized. On the other hand, the Printed Circuit Boards have many uses especially in electronic devices. Such devices include laptop and desktop computers where they act as the foundation for several internal computer components like controller cards, video cards, expansion cards and network interface cards. As if that is not enough, Printed Circuit Boards are used in digital cameras, radios, televisions, tablets and cellphones. Such PCBs contain finer circuitry characteristics and are typically thinner.

After identifying the problem to be solved in an engineering project, the design and fabrication of a Printed Circuit Board to suit the design specifications and at the same time use minimal resources like devices and time can be tiresome and hectic. It is, therefore, necessary to identify the best PCB dealers in the market. A highly recommended PCB fabricator is RUSHPCB.CO.UK. The PCBs at this site are effective and efficient thus you will need minimal prototypes to implement the final design. We also act as a PCB design consultancy thus saves you the time and stress of having to implement several prototypes before coming up with the final design. Please visit us at our blog.

However, since we value all our customers and everyone in general, we seek to present a simple and effective method of fabricating a quick-turn PCBs which requires less specialized equipment. This has been simplified to a step by step procedure as shall be discussed in the rest of this article.

  • To begin with, in the fabrication of a PCB that requires minimal specialized equipment, one has to generate and “design-in” circuit schematics. In this process, you should have a clear idea of the circuit he or she needs to design using PCB. This can be done using the PCB software or Multi Sim to design the circuit that one needs to come up with. However, we recommend that we use PCB software for compatibility purposes.
  • Sequentially, a different but important step in the fabrication of quick-turn PCBs is verification of the component routing and placement procedure. This is critical in helping prevent incidences of short-circuits caused by poor equipment routing. Moreover, equipment should be arranged in a smart and technical manner to maintain the aesthetic properties of the PCB design. This will help make the final design appear more appealing and presentable to the public especially if you intend to use it for any commercial purpose.
  • Different from that, you have to optimize Printed Circuit Board design for various circuit types like digital and analog circuits. In this procedure, you have to identify whether the components that you shall use in your final circuit design shall be analog like the use of comparators, thyristors and transistors or they shall be digital like the use of gates, flip-flops, Integrated Circuits. These circuits vary due to the electrical properties of the components used and variance in the operating conditions of each.
  • In the same token, the fourth procedure in the design of a Printed Circuit Board is the creation of a design guideline circuit board house. This can be done using the design software like PCB as already discussed. Please ensure that the simulated circuit design is a simple but exact representative of the one to be implemented. Breadboards can be used in this procedure and tested for effectiveness before placing the components to the PCB. However, since we have already placed our equipment on the board, the best procedure is to test the effectiveness of the design using the software as discussed above.
  • Sequentially, after the creation of a design guideline for the PCB house, you have to generate the artwork and design files. This involves coming up with the clear copies of the circuit that has been implemented and that one which is being implemented in the PCB. Thorough comparison for the similarity of the circuit routing and equipment placing is done. It should be remembered this is the last stage before applying the solder mask layer so everything should be done effectively so that the preceding step can be carried out without any problem.
  • Equally significant, the sixth step involves exposure and the development of the solder mask layer to the prototype board. In this step, soldering skills are relevant to help in the production of a smart circuit and help evade short-circuiting in the final board due to poor soldering such that components have a connection with each other. After soldering, it is recommended that you should check for continuity between the solders to avoid short-circuits in the final circuit. However, with enough practice, this step can always be ignored.
  • Lastly, the eighth procedure in the fabrication of a Printed Circuit Board that suits your needs is the application of the relevant chemicals as well as drilling tools safely. The chemicals are used in the painting of the board to make it more appealing. Moreover, the drilling tools are used to drill symmetrical holes in the board. This is where the components shall be placed.

In the event that the above procedure is not clear, we at RUSHPCB are customer friendly and we are always available to handle any claims or questions from all our customers. Kindly visit us at www.rushpcb.co.uk. Comparatively, if you need many Printed Circuit Boards delivered to you at a low cost, please don’t hesitate to visit us. We can always negotiate on the price. Our PCBs are all applicable to the engineering world observing the IEEE standards of mechanical, chemical, thermal and electrical properties of electric circuit boards. Moreover, the design procedure of our PCBs is ISO certified so you don’t have to worry about the quality and efficiency.

Electronics Product Design Guide For Students

The Best Guide For Electronic Product Design For Students

The Best Guide For Electronic Product Design For Students

Design and production of electronic products can be tiresome and hectic for many scholars. This is because coming up with a product which shall impress the targeted market is tricky. However, Rushpcb.co.uk has made the process much simpler by formulating ten steps which can be adopted in the process of developing an electronic product.

To begin with, the hardest part in the development of an electronic product for any job is the concept stage. In this step, you should come up with an innovative product which shall help solve an existing engineering or social problem. Such ideas could be something that one finds annoying in their daily life or an idea to improve an already existing product such that the end product is much better and efficient than the original product. Such ideas could include the design of an inverter using cheaper electronic products or the design of an electronic key lock using flip-flops and AND gates. These products are already on the market, but they apply complicated procedures and expensive equipment in their design and implementation. In this stage, extensive research is needed so that the end product is unique and efficient.

The second step in the design of an electronic product is research. In this stage, you should think technically and apply your electronic engineering come general knowledge so that you get fine details of and the expected cost the product you are designing. Specific design specifications are crucial. Such specifications can be acquired from the internet (Rushpcb.co.uk), libraries and even from experts like the RUSHPCB support staff.

Sequentially, the circuit design stage involves drawing a schematic with software which is readily available to you and you have a thorough understanding of its operation. Such software includes Printed Circuit Board (PCB) which you can access at various online stores like RUSHPCB (click here : https://www.rushpcb.co.uk/blog).

Equally significant, the fourth stage in electronic product design is packaging design. This phase is crucial since brilliant circuit designs are sometimes disappointed by sub-par packaging. With this, it is crucial to remember that a customer does not judge a product and the quality of any circuit. Customers rarely understand the working of electronic circuits, so it is upon you to make them appealing and easy to understand. As an example, Apple and Steve Jobs emerged as giants in their electronics empire by designing iconic and unique products which not only solved existing everyday problems but also focused on customer experience. To be clearer, think how you would feel by designing an entirely new product or modifying an already existing product.

The fifth stage in electronic product design is the printed circuit design. This is the most interesting part when the ideas and circuits already which are in your brain are turned into workable files using Printed Circuit Board (PCB). This stage is the most important in your design so we recommend that you consult experienced electronic engineers and use only certified Printed Circuit Boards. We highly recommended that you use our services and be assured of 100% assistance in case you have any problem (visit us at http://rushpcb.co.uk/) However, you should ensure that you understand the layout of your placement. Always consider the optimum layouts for your boards. This is because we are a unique PCB provider and your product might go into mass production thus enabling you to save millimeters which can translate into saving of huge costs.

In the same token, the sixth stage in electronic product design is the trial production or prototyping stage. This stage is very sensitive thus you should ensure you use trusted PCB prototyping shops like RUSHPCB. There are many sites and shops offering fake PCB prototypes which end up short-circuiting and blow up when you power your design circuit. Computer-aided design using software like electronic AUTOCAD is also part of this stage. The versions of such software keep changing each year so you should be keen to purchase the latest and most efficient version of software in the market. It is significant to note that prototypes primarily aid in the identification of the faulty parts in the design. Resolving such problems helps to achieve the final product which is the wish of any designer and electronic technician. In our electronic and PCB expertise, it can take between two to ten prototypes before achieving the final product so you should not be worried if the design does not work in the first few trials.

As if that is not enough, the review step in electronic product design involves evaluating the prototype at hand for function, build-cost, appearance and any changes which can be made on the prototype. This step is the last final stage so you should think of the best way to modify the prototype before proceeding to the final step. However, if your prototype is fine and you are fully convinced it is what you wanted; proceed to the final stage.

The final stage in electronic product design is wrapping it up. After building your product successfully and all the goals laid out in concept are satisfied, documentation stage begins. However, this varies depending on the course and the use of the product although many colleges and universities demand that one should assess the way in which the product can be produced massively. To be precise, evaluate the areas where you can save on cost, compliance regulations or laws and identify the sales figures depending on market availability and viability.

Different from that, there are key factors that you have to bear in mind while designing an electronic product. To begin with, you should keep track of time and all the cost you are to incur in your design. Moreover, one should be keen to observe the designer’s mantra and make a mock-up often. This is because they reveal new ideas which you never thought of. Comparatively, you should allocate humble time to the testing stage so that the end product is efficient. Equally significant, you should only use recommended and trusted suppliers. This is why we recommend https://www.rushpcb.co.uk/ for perfect end products. We have helped millions of students and designers in their projects and they have always succeeded. Please try us today. Contact our sales team at [email protected].