Pabrikan Sirkuit Fleksibel: Perbandingan Antara, Rigid-Flex, Rigid, dan Flex PCBDiposting pada 2020-04-20
Perbedaan antara Pabrikan Sirkuit Kaku, Kaku-Flex dan Fleksibel
Tidak seperti pabrikan PCB tradisional, pabrikan sirkuit Fleksibel telah menghadirkan PCB yang kecil, efisien, kuat, dan efektif. Bagaimanapun, kualitas dan kapasitas Papan Sirkuit Cetak berdampak langsung pada elektronik.
These boards use discrete wiring to connect electrical components to allow units to function properly and smoothly. Printed Circuit Board comes with a wide range of complexities and sizes. You can have a simple PCB with just two layers of copper circuits or you can enjoy several layers of circuitry.
These layers hold great importance. The designers use these layers to route all circuits between components. Therefore, the designers pay close attention to the layers. In addition, they need to determine the number of layers they would want to complete their design.
In some cases, one or two layers are enough. However, in many, they would need more than 8 circuitry layers. The complexity of the PCB depends upon the complexity of its respective products. Some products are extremely sophisticated. Therefore, they require complex Printed Circuit Boards.
Even though all the circuit boards serve the same purpose for an electronic component, yet their design and the raw material is the key distinguishing factors. After all, every circuit board is designed and developed keeping in mind the requirement of their particular applications.
Thanks to technological advancement, you today have access to a wide variety of Printed Circuit Boards. In the course of this article, we are going to talk about the difference and similarities between different types of PCBs.
So, without any further delay, let us get started!
Different Types of Printed Circuit Boards
Flexible Printed Circuit Boards Vs Rigid Printed Circuit Boards
By just hearing their names, you will be able to identify the basic differences between these two types of Printed Circuit Boards. Rigid Printed Circuit boards are hard and inflexible. On the contrary, Flexible Printed Circuit Boards have the ability to bend. They are flexible otherwise. It is possible to shape Flex PCB in order to fit it in the desired systems.
However, this does not hold for Rigid Printed Circuit Boards. You need to have complete design information before creating a Rigid PCB. Flexible Printed Boards are an excellent piece of technology. It is possible to flex them for hundreds of thousands of cycles without failure.
Since Flex PCB is more advanced and sophisticated in terms of technology and usability, therefore they are more expensive as well. Their flexibility makes them vital for electronics with limited spaces including automotive applications, medical devices, and consumer electronics.
Despite the limitation of Rigid Printed Circuit Boards, they are still largely popular. One of the major reasons for its popularity is low-cost manufacturing. Manufacturers do not have to invest a lot to come up with robust, long-lasting and efficient Printed Circuit Boards. In addition, manufacturers have been designing and developing Rigid PCBs for years now. Therefore, they have enough experience in their pocket to ensure zero errors.
Flexible Circuit Manufacturer, on the other end, is still maturing. Nonetheless, it seems that Flex PCBs have started to siphon the market share. Their versatility and efficiency and other advance features attract consumers.
It is possible to fold, bend or even crease it to fit the consumer electronics or other applications. Do remember, the ability of the circuity fitting the device greatly depends upon the designer. Thus, it is imperative to choose experienced and reliable Printed Circuit Board manufacturers such as the 6pcba.
Since you can adjust the PCB as per the application, thus there is no need for you to design the application around the circuit boards and electronics. This offers more freedom to the designer of the end device. Flexible Printed Circuit Boards are excellent for wearable electronics for instance watches and headphones.
When you use lightweight Printed Circuit Boards, it means your end product will also be lightweight. Rigid Printed Circuit boards are mostly heavy, therefore, they are not the top priority for compact electronics.
Flexible circuits, on the other end, are extremely lightweight. Thus, they are the best choice for today’s electronics. After all, consumers now prefer small, and lightweight devices. You will find flexible printed circuit boards in drones and unmanned vehicles.
Another great advantage of Flexible Printed Circuits is their ability to offer great connectivity between electronic components, circuit boards, and electronic packaging user interface. In addition, they offer a dynamic flex application.
This means that the board is able to flex continuously during the life span of the product. Due to this ability, they popular about foldable electronics, laptops, and display connectivity devices.
People often think that since Rigid Printed Boards are thicker and stronger, thus they are a better shock absorber. Unfortunately, that is not the case. Flexible boards are better in terms of absorbing vibrations and shocks.
Their robustness has a direct impact on the long-term reliability and functionality of the product. You can find Printed Circuit Boards Extensively used in weapons, missile guidance systems, satellite, medical electronics, and other products. All and all, Flex PCBs are perfect for applications that require excellent environmental survivability.
There is no denying that Rigid Printed Circuit boards are always at the risk of being damaged by the chemicals, heat or radiation. However, this is not the case with Flex Printed Circuit boards. They have improved resistance and offer more durability.
Flexible Circuit Manufacturer design and develop circuit boards that offer a high level of resistance to several environments detrimental factors including radiation, chemicals, extreme weather, and heat. This is the major reason; you will see that Flex PCBs are popular among automotive electronics.
Now that you have knowledge about the difference between Flexible and Rigid PCB, let us move to the next step. We are going to compare these Printed Circuit Boards with their Hybrids while keeping in mind the above factors.
Flexible Circuit manufacturer: Rigid-Flex Vs Rigid and Flex PCB
You can gather from the name that Flex-kaku PCB is a hybrid of both Flexible Printed Circuit Board and the Rigid Printed Circuit Board. This sophisticated PCB tends to enjoy the best of both worlds. If offers the robustness and sturdiness of a Rigid PCB while ensuring the flexibility of the Flex PCB.
A Rigid-Flex PCB uses flexible material along with the right material. It layers the flexible substrate inside the rigid circuit board materials. Thus, it offers a combination that ensures robustness, versatility, and flexibility.
With the hybrid, designers can come up with more refined, sophisticated, and challenging designs. They can meet the needs of highly advanced applications without any trouble.
With Rigid-Flex Printed Circuit Boards, it is possible to streamline the electronic designs by removing discrete wiring, connectors, and flexible cables. Also, Rigid-Flex PCBs offer more robustness in terms of their counterparts. The reason being, these circuits are an important part of the entire construction.
For Rigid-Flex PCB, you will have to internally connect both the mechanical and the electrical connections. Thus, the designer has enhanced electrical performance and improved service reliability.
The only problem with Rigid-Flex PCBs is that they are expensive. However, their weight-reducing ability, reliability, space spacing advantage, and strength makes them vital for certain applications. Thus, you simply cannot avoid Rigid-Flex Printed Circuit Boards in certain situations.
Papan Sirkuit Cetak merupakan bagian integral dari elektronik modern. Bagaimanapun, mereka bertanggung jawab atas kelancaran fungsinya. Papan Cetak Kaku mungkin lebih murah, namun, Produsen Sirkuit Fleksibel percaya bahwa papan tersebut tidak memiliki keandalan dan fleksibilitas.
Untuk menggunakan PCB Kaku, Anda harus mendesain aplikasi sesuai dengan PCB. Namun, dengan papan Fleksibel atau Rigid-Flex, desainer memiliki kebebasan untuk mendesain tanpa bingkai ulang. Bagaimanapun, PCB akan menyesuaikan sesuai dengan kebutuhan elektronik, bukan sebaliknya. Mereka dapat menghasilkan desain yang canggih dan kompleks tanpa mengkhawatirkan integrasi PCB.