What is PCB Board made of?

Overview: As an electronic component commonly used in daily life, printed circuit boards are widely used in electronic products such as mobile phones, televisions, and refrigerators. Its functions include the following two points: I. To establish a reliable electrical link between electronic components in PCB. II. To designate a proper location for electronic components. Although it’s very common, have you ever wondered what a PCB board is made of? Next, FS Technology will discuss this issue with you below.

The composition of the PCB

The structure of the PCB board

Printed Circuit Board (PCB), are the electronics boards that are made of electronic devices where the connection of the components is carried out using pads, lines, and tracks on a laminated sheet of copper. It is made up of layers of copper circuitry buried internally or externally on a flat laminated composite substrate. They also include composite material, fiberglass, and composite epoxy. 

PCB comes with various layers and designs. In the structure of multilayer PCB, advanced hardware like graphics cards and motherboards are used. One of the flat layers of PCB is for supporting all the soldered electronics components while another layer connects the components electronically. 

Various layers of PCB are joined together with the help of heat providing the compact shape of a single object. The description of the PCB layer is as follows:

Substrate Layer:

It is the base layer of PCB and is composed of fiber-glass. The FR4 is the most common fiberglass used. Some of the PCBs also come with phenolics and epoxides which are less expensive and less durable compared to FR4. The nature of the substrate materials would define the flexibility of the PCB board. 

Copper Layer:

A thin layer of copper foil is present beside the substrate. Heat and Adhesive are used for laminating the foil of copper on the board. In double-sided PCB, both sides of the PCB are laminated with copper. The thickness of copper varied based on the layers of boards and can be defined in ounces per square foor. Each inch per square has 35 micrometers of thickness. 

Solder Mask Layer:

The solder mask layer is present above the copper layer. This layer is applied in the copper layer to insulate the copper layer to avoid the conduction if there occurs direct contact by conductive materials. Thus, we can say the solder mask protects all the circuits on the outer layer of the PCB. Some of the commonly used solder masks are green in color while there is also a red mask available on the market. 

Silkscreen Layer:

The silkscreen layer existed above the solder mask layer. It helps the user to add the number and symbols for the understanding of the PCB boards. This silkscreen label provides a clear indication of the function of each and every component and pin on the board. It is mostly used in white color but can be found in various other colors like grey, red, yellow, and black. 

What material is PCB made of

Each PCB has stacks of insulating and copper foil layers and lamination to the substrate. Tracks on PCB were developed using chemical etching, separating conducting layers into directive straight lines. The tracks work like wire, connecting different electronic components on board. Below we will introduce you to the four substrate materials that make up circuit boards.

FR-4

This is one of the common PCB substrate material that provides thickness to the PCB, and rigid boards built using this material are called FR-4 PCBs. Essentially, it is a glass-reinforced epoxy laminate sheet. Water resistance and flame retardancy are two properties of the epoxy used. Besides, it is also good for strength-to-weight ratios. This material offered a higher tensile strength. It is common among PCBs with lower layer counts. 

 Adding additives to epoxy resin in a blend can enhance its thermal, electrical, and flame survival performance, making it ideal for high layer count builds high thermal stress designs and high-speed circuit designs at a lower cost. 

PTFE (Teflon)

Teflon laminates and bonding material provides excellent properties of electrical thus it is used for high-speed and high-frequency applications as this plastic material doesn’t provide any resistance. The flexibility of PTFE is extremely high and thus it provides tight tolerances application. It also has the property of flame resistance, provides temperature stability, and is versatile in application. They can be coated into glass fabric whose mechanical properties can be increased using additives and special fillers. 

Metal

The materials like copper, iron, aluminum, etc. are used in PCBs. As a result of these materials, Surface Mount Technology (SMT) can be utilized for component integration. Mechanical durability is also provided by them. Therefore, the product life of insulated metal substrate PCB is much longer.

Flexible Laminates

Electronic designs can be folded using flexible laminates, with no loss of electrical continuity. Instead of glass fabric, they use plastic film for support. Whether they are folded for a one-time project such as flex to install, or for a continuous application like dynamic flex, they can be equally effective. Polyimide and LCP (liquid crystal polymer) are high-temperature materials that can be made into flexible laminates, or polyester and PEN are very low-cost materials. The thin laminates also require specialized equipment and processing, along with the expectation that PCB manufacturing yields will be low. Manufacturing flexible circuits can therefore require a uniquely skilled workforce, specialized machinery, and specialized equipment.

BT, cyanate ester, ceramics, and blended resin systems can also be used to design laminates and bonding materials with superior electrical and/or mechanical performance. In general, PCB manufacturers consider them expensive alternatives because of the low volumes and difficulties in manufacturing.

For a high-quality PCB, the laminate must meet the appropriate electrical, dielectric, mechanical, and thermal properties.

All about “What is a printed circuit board made of” is all over. If you are not a practitioner in the PCB industry and want to know more basic knowledge, you can click the link below.

Другие связанные статьи:

Этапы производства плат PCBA / Процесс сборки печатной платы

Что такое печатная плата

Что такое PCBA

What is difference between PCB and PCBA

Последние блоги о PCBA

Внедрение SMD компонентов
Знание печатных плат и PCBA
Уилсон Смит

Что такое SMD-компоненты?

Что такое SMD-компоненты Электронные устройства с компонентами, прикрепленными или установленными непосредственно на поверхности печатной платы (PCB), известны как

Читать далее "
Инструменты для проектирования печатных плат
Знание печатных плат и PCBA
Уилсон Смит

Сравнение 6 практических инструментов для проектирования PCBA

Сравнение 6 практических инструментов для проектирования PCBA Работа инженера-электронщика была бы невозможна без печатных плат, а без печатной платы нет схемы.

Читать далее "
Руководство по толщине меди на печатной плате
Знание печатных плат и PCBA
Уилсон Смит

Рекомендации по толщине меди в PCBA

Рекомендации по толщине меди в PCBA Укладка PCBA, скорее всего, будет одной из последних забот, о которых Вы думаете, будь Вы разработчик схем или просто инженер.

Читать далее "

Гибкая и жесткая печатная плата, сравнение двух распространенных печатных плат

Гибкая VS жесткая печатная плата, сравнение двух распространенных печатных плат Обзор: В индустрии PCBA мы обычно используем PCB для обозначения всех типов печатных плат.

Читать далее "

Что такое жесткий гибкий PCBA

Что такое Rigid Flex PCBA Плата Rigid-flex - это полужесткая и полугибкая структура схемы, так что компоненты проекта могут быть соединены на обеих частях. Rigid-flex

Читать далее "

Всестороннее введение в разъемы PCBA

Всестороннее введение в коннекторы для печатных плат С развитием технологий сложные электронные системы становятся все более требовательными к компактности и точности компонентов PCBA.

Читать далее "

Преимущества оптовой продажи жестко-гибких PCBA для электронных проектов

Преимущества оптовых жестко-гибких PCBA для электронных проектов Когда Вы рассматриваете оптовую плату PCBA для практического использования, существуют различные варианты. Однако,

Читать далее "

Способы повышения рентабельности проектов гибких схем

Как снизить затраты на производство гибких печатных плат Электронное устройство может быть соединено электрически и обеспечивать механическую поддержку с помощью печатной платы (PCB).

Читать далее "