Connector PCB – What Are the Different Types of Connectors on a Connector PCB?
Connector PCB is a type of FPC (Field-Programmable-Chip) that is used in many fields and industries. It is a high-tech device, which is capable of performing several functions, which includes a connection from one piece of equipment to another. Hence, it has a wide use in the manufacturing industry. Here are a few facts about this type of board.
Wire-to-board
The wire-to-board connector is a device that is designed to connect a wire to a PCB. These connectors have a number of uses and are widely used in different industries. Some of the reasons for their widespread use include their cost-effectiveness and durability. In addition, they provide a high-speed and reliable connection.
Wire-to-board connectors come in a variety of types and designs. Their shape is typically rectangular, and they are commonly used to establish connections between circuits. They are a great solution for a range of applications, including consumer electronics, industrial equipment, and automotive.
Most wire-to-board connectors are surface mount, which makes them easy to install. Depending on the application, the connector’s housing may be crimped on to the wire or soldered through a hole in the board. This process provides a permanent connection between the two components.
In addition to the crimped-on contacts, many connectors have an ejector mechanism for quick and easy connections. Another advantage of these types is their compact design. There are also connectors that have a locking bar to prevent accidental un-mating.
If you are looking for a high-quality wire-to-board connector, you should consider the variety offered by ANYCONN TECHNOLOGY LIMITED. For 13 years, this company has been manufacturing connectors and IC sockets for a variety of applications. Its product portfolio includes USB, box header, and IDC connectors.
Amphenol is a leading manufacturer of robust wire-to-board (WTB) connectors. Its extensive product line includes a wide variety of pitch sizes. From 0.80mm to 2.54mm, the company has a connector to meet your needs.
Molex offers a range of wire-to-board connector types that are suited for applications requiring microminiature options. They are also available in shielded designs. Regardless of your application, these connectors can be paired with a wide range of wires to provide a reliable and fast connection.
Unlike traditional connectors, these new systems can be assembled with little or no tools, making them a perfect choice for automated surface-mount assemblies. As well, they are designed to offer maximum flexibility for your design.
When choosing the right wire-to-board connector for your application, be sure to look at the electrical and mechanical specifications. These include the contact insertion force, the minimum un-mating force, and the total current and voltage the connector can handle.
Board-to-board
A board-to-board connector PCB is used for connecting electronic components on a printed circuit board (PCB). There are two types of board-to-board connectors, through-hole and surface mount. Both provide the same functional benefits. However, there are differences that can help you choose the right type of connector for your application.
The most basic difference between through-hole and surface mount connectors is that through-holes are mounted on the PCB itself. Surface mount components are soldered directly on top of the PCB. These connections are weaker than through-hole connections, which can cause problems if the boards are subjected to physical stress. Consequently, through-hole components are a better choice when the boards are in use.
Through-hole connectors can be used in a wide range of applications. They are particularly useful when a strong vertical connection is needed between layered boards. This is because the leads on through-hole connectors Connector PCB are soldered to pads on the opposite side of the board. In addition, through-hole pins have a greater physical integrity than surface mount pins, which are more fragile.
Another feature that is important to consider is the length and pitch of the pins. Aside from the type of insulator, the pitch of the pins will also affect the performance of the connector. If the pitch is too small, you may have trouble routing the traces on the board. Likewise, if the pitch is too large, you could encounter problems with re-routing the signals.
Similarly, the plating process plays a vital role in the quality and life-span of a connector. Different alloy materials provide different levels of conductivity and physical endurance. For example, bright tin works well against corrosion, but it sacrifices solderability. Other plating methods may help you achieve the look you desire, such as electroless nickel.
Board-to-board connectors are available with a wide variety of features, including high-temperature resistance plastic, robust terminals, and a variety of pitch sizes. This makes them a flexible solution for a range of industrial applications.
Whether you’re looking for a standard PCB board-to-board connector or a high-speed version, Amphenol has you covered. It offers solutions in multiple standards, including PCB board-to-board, through-hole, and shielded.
Panel to panel
Panel to panel connectors have become a common sight in the IT department of large and small enterprises alike. Not only are they relatively easy to install but they also reduce risk of component failure by removing the stress that is associated with soldering components to a PCB.
Panel to panel connectors aren’t all the same. There are cable style connectors and receptacles. In addition to the requisite silver plated contacts, some panel to panel connectors feature metal or glass shields to help keep dust and dirt at bay. The best way to find out which type of connector is best for your application is to consult an electronics designer. If you can’t afford to hire one, don’t worry. Regardless of your budget, you will still be able to purchase quality connectors from leading manufacturers such as Renhotec Group, FFC Technologies, and Spectra Electronics. They offer both standard and premium grade connectors in both male and female styles. You can also order connectors by the box.
Choosing a panel to panel connector can be a daunting task, especially if you are new to the industry. However, if you take the time to compare prices and read product specifications you will be rewarded with a quality connection. To get the most bang for your buck, opt for a panel to panel connector that matches your application and your budget. Alternatively, if you are looking for something a little more bespoke, the best way to go is to use an electronic manufacturing services provider. Most major companies provide electronic component assembly services for businesses of all sizes. Using a PCB design specialist can save you hours of troubleshooting and ensure your next project is a success. Lastly, when choosing a panel to panel connector, make sure you are armed with the proper information to avoid wasting your hard earned cash.
The best way to choose a panel to panel connector is to choose a reputable manufacturer that Connector PCB offers a wide range of solutions. To ensure your success, ask for a product specification booklet, and don’t be afraid to ask for a sample to prove a product’s true worth.
FPC
The FPC connector is a small, lightweight interconnect solution used in many applications in electrical equipment. The FPC connector includes an insulative housing, a substrate member, and contact beams. In this type of connection, the conductors on the bottom of the FPC are coupled to surface mount leads on the PCB.
A printed circuit board (PCB) typically includes a microstrip structure, signal conductors, and ground planes. A FPC connector can be manufactured to match the dielectric geometry of the PCB, including the substrate. TE offers FPC solutions in various interfaces. These are field terminatable and designed to meet the demands of the miniaturization market.
The insulative housing 105 of the FPC connector is typically a single piece of plastic material. It is placed face down on the surface of the printed circuit board 101. There is a rectangular bottom side 108. First, the insulative housing 105 is inserted into the PCB with its end portion 106 on the top side and its edge 109 on the left side.
Once in place, the contact beams 114 and 115 are pressed into the corresponding conductors in the FPC. Each beam presses on the FPC only on one side. As the insulated housing 105 rotates, it presses the FPC 102 into the contact beams.
The stiffening member 116 can be grounded or non-grounded. This portion can be anchored in the housing 105 through accommodating grooves. Alternatively, it can be electrically floating.
Guide pins 122 extend through holes in the stiffening member 116. These guide pins are melted to secure the first and second housing portions together. After this, the cover portion 155 snaps into position.
The contact beam 114 is in the up position. If the FPC edge inserted into the PCE receiving slot were in the horizontal direction, the angled end portion of the contact beam would fit into the accommodating recess 115 in the insulative housing 105. An alternative electrical path extends from the solder ball at the bottom of the insulative housing.
The contact beam 114 is mounted on the substrate member within the connector. Normally, the fork-shaped metal clamp is stamped out of sheet metal and has a stiff support portion. However, in some cases, the stiff support portion does not exist.