There are numerous advantages of using a design service for your PCBs and here are a few of the main benefits you can expect:
- Technical Competency
- Streamlines Your Products
- Reduces Design Flaws
- Fast Production of Prototypes
- Contact Clarydon for PCB Design Services
PCB production takes 3 - 14 business days depending on specific order parameters, not including delays caused by problems with the order/files. Typically, boards are completed within 3 t 5 weeks.
- Multi-billion Industry
PCB production is already a profitable industry, with the global market being worth around 60 billion dollars a year. A big percentage of that sum is spent on PCB design services. This isn’t a surprise knowing that all major industries are in need of PCBs.
- Space Travel
The future of PCB technology is very bright, given the fact that printed circuit boards are essential parts of the aerospace industry. As the world is entering the period of space exploration, with people estimated to get on Mars in the next couple of decades, the demand for specially-designed PCBs is going to become huge.
- PCB Design is Getting Easier
Along with the development of modern technologies that can’t do without PCBs, the software for PCB design is also getting better and better. Even today, there are lots of tools that make the job of PCB designers much easier. However, these programs are expected to get even more advanced very soon.
Future Scope of PCB
As technology and consumer demand grows and develops, however, so must PCBs. As the basis of all electronic devices, PCBs feel intense pressure for development and growth. With consumers pushing for slimmer and faster devices, and with industries seeking improved functionality, the PCB must continue developing into the future.
While modern PCBs are produced at incredible rates with astounding complexity, there is always room for development. Whether it's in the shape of the PCB itself or the accessories attached directly to the board, consumers are continuously pushing for new and different PCBs and PCB functions.
There's also plenty of room to grow in the manufacturing process itself as increased PCB complexity introduces new challenges for manufacturing companies.
PCB Board Cameras
Board cameras, alternatively called PCB cameras, are cameras that are mounted directly onto a circuit board. These PCB cameras consist of a lens, aperture and image sensor and are designed to take both digital pictures and videos. In all, the cameras are around the size of a quarter and can be mounted on any size PCB. This means these cameras are small enough to slip into just about any electronic device.
Since their introduction, board cameras have developed quickly, with photo and video imaging and durability being the primary areas of improvement. Now, these small cameras can take high-resolution images and video with ease.
3D Printed Electronics
3D printing technology is probably one of the most exciting technological innovations in recent years. From 3D-printed organs to firearms and ammo, 3D printing has accomplished some incredible things in a variety of industries. The PCB industry is no different.
3D printing has proved integral to one of the big PCB innovations in recent years: the 3D PE. 3D-printed electronics, or 3D PEs, are positioned to revolutionize the way electrical systems are designed in the future. These systems create 3D circuits by printing a substrate item layer by layer then adding a liquid ink on top of it that contains electronic functionalities. Surface-mount technologies can then be added to create the final system. The result is a circuit that can take any shape imaginable.
PCB Autoplacers
Most PCBs today include an autorouter in their design. This PCB component routes electronic functions throughout a board to model the characteristics of the PCB layout, therefore making the automation process much easier.
However, autorouters are difficult to create and set up, taking a large amount of time and labor. Because of this difficulty, time saved through automation is lost in the setup process. For this reason, many manufacturers and PCB designers are looking into autoplacers as an alternative. Autoplacers make the automation process much faster by attempting to integrate mechanical and electrical CAD systems, simplifying the manufacturing process. As of today, automatic placement tools haven't achieved acceptance in the PCB manufacturing industry at large. The reason lies primarily in the difference between autoplacer and autorouter constraints:
High-Speed Capabilities
Today's world is incredibly fast-paced, demanding that people and technology move quickly as well. As the years pass, we expect things to get even faster - that includes electronics. To allow our devices to keep up with this growing demand for speed, PCB technology will need to adapt accordingly.
High-speed PCBs are a unique subject for designers, mostly because the definition of a high-speed PCB is relatively loose. The generally agreed-upon definition of a high-speed PCB is one where the integrity of the signal is affected by the circuit layout. This can mean different things:
• Digital Signal: In digital PCB signals, the intelligence is contained in the digital pulses. Therefore, effects on signal integrity can manifest as delayed or canceled digital signals.
• Analog Signal: In a high-speed analog circuit, the intelligence is in the shape of the signal. In these cases, signal integrity problems will appear as altered signal shapes.
A Focus on Flexible PCBs
The PCB industry is already a fast-growing industry, with some studies estimating that the market will grow from $63.5 billion in 2016 to $73.8 billion in 2021. However, the fastest-growing segment of the PCB industry is flexible PCBs - projected to grow to $15.2 billion by 2020 and $27 billion by 2022.
Between wearable electronics, flexible displays and medical applications, flexible technology is pushing the industry increasingly toward flexible and flex-rigid PCBs. Flexible PCB technology is already outpacing rigid PCBs in terms of sales growth, meaning the future is looking bright.
Biodegradable PCBs
When it comes to PCBs specifically, some scientists propose we attack the pollution problem by changing PCB manufacturing processes. This would mean switching out traditional substrates with more environmentally-friendly alternatives. Biodegradable substrates are currently under close examination, as are alternatives that don't require harmful etching chemicals to finish the assembly process.
