USB, the abbreviation of universal serial bus in English, is an external bus standard, which is used to regulate the connection and communication between computers and external devices. It is an interface technology applied in the field of PC.
Universal serial bus (USB) is a new data communication mode which gradually replaces other interface standards. It was jointly developed by Intel, Compaq, digital, IBM, Microsoft, NEC, Northern Telecom and other computer companies and communication companies in , and gradually formed industry standards.
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As a kind of high-speed serial bus, USB bus's extremely high transmission speed can meet the application environment requirements of high-speed data transmission, and the bus also has the advantages of simple power supply (bus power supply), convenient installation and configuration (plug and play and hot plug are supported), simple expansion port (127 peripherals can be expanded at most through the hub), diversified transmission modes (4 transmission modes), as well as the advantages of good compatibility (downward compatibility after product upgrade).Since its introduction, universal serial bus has successfully replaced serial port and parallel port and has become one of the standard expansion interfaces and necessary interfaces for a large number of computers and intelligent devices in the 21st century. Now it has developed to USB version 3.2. USB has the advantages of fast transmission speed, convenient use, hot plug support, flexible connection, independent power supply, etc. it can connect a variety of peripherals such as the keyboard, mouse, large-capacity storage device, etc. the interface is also widely used in smartphones. The interaction between intelligent devices such as computers and external data is mainly based on network and USB interface.1. PolarizationThe USB connector can only be nominally inserted in one way. It is possible to force a wrong connector, but this can cause damage to the device.2. At least four contactsAll USB connectors have at least four contacts (some USB models may have five, USB 3.0 connectors or more), which are used for power, ground and two data lines (D + and D -). The USB connector is designed to transmit 5V up to 500mA.3. ShieldingThe USB connector is shielded, so it provides a metal shell that does not belong to the circuit, which is very important to keep the signal intact in the environment with a lot of electrical noise.4. Powerful power connectionIt is very important for the power pin to establish a connection before the data line to avoid trying to power the device through the data line, which is taken into account in the design of all mil spec USB connectors 5. Mould strain reliefAll USB cables are plastic-wrapped at the connector to prevent pressure on the cable and damage to the electrical connection.Sunkye is a professional connector manufacturer contact us now!
When it comes to reliable system operation, choosing the right connector is key. The right connector can make your system smaller, lighter and easier for the user to handle. It isnt a place to take shortcuts, as the right connector system can help avoid the high price of recalls, repairs and lost customers.
Conducting adequate research on the connectors and cable must be done at the beginning of a systems design process to produce the optimal design. Follow these 10 steps to research the ideal connector early in the design phase and you can positively impact the design, usabilit and cost structure of your entire device.
Defining the electrical voltage and current requirements each contact will carry is the first step to selecting the ideal connectors for your device. You have to ensure that you not only have the right number of contacts, but that the contacts can carry the power demands of your application. The size of the contact and the size of the wire dictate the current-carrying capability of a contact. Contact spacing, insulation materials, and the geometry of the insulator used to isolate the contacts dictates the voltage rating.
To ensure you design in the proper connector, it is your job to dig deep and understand how a manufacturer specifies their connectors current ratings and operating voltages. Their test data should reference a test standard, informing you exactly how their testing was conducted.
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Not everyone uses the same testing criteria, so ensure you understand how these specifications were derived. When you are reviewing current ratings, take note of the temperature rise specification. This specification indicates how much heat will be dissipated at a specific current value. You also want to confirm that the contact will support the conductor size you have selected. A non-compatible conductor could cause overheating issues, leading to premature connector failure.
After you identify electrical requirements, determine whether other functions can or should be added to your connector. Hybrid connectors are usually custom designed, but if you have the time to work with a manufacturer to develop a specific hybrid connector to exactly meet your needs, it can be worth the effort. The results will provide the end user with fewer connections and cables to manage. See if you can source a single connector that can carry more than one of the following: power, signal, coax, fiber, liquid and/or gas.
Termination types have a direct effect on the assembly process and the ability to seal a connector. Connectors with solder contacts are typically easier to seal against moisture ingress, while crimp contacts may offer better field reparability. There is a trade-off between the two, so the final decision on which termination type to use is often made after discussions with your manufacturing and design groups. Its important to know exactly how and where the connector will be used, and whether field reparability is a requirement, as this decision has a significant impact on the assembly equipment and processes used in manufacturing.
If the connectors will be used in harsh operating environments, check the manufacturers IP (Ingres Protection) rating for sealing to dust and water at various depths and operating time frames. Make sure you understand the end use environment for your connectors, and then compare that scenario with the details behind the manufacturers IP rating. Most of the IP designations have specific conditions, but the IP68 rating may be defined by each manufacturer differently. When looking for a connector with an IP68 sealing rating, inquire exactly how the manufacturers IP68 rating is measured. A system being submerged at two meters for 24 hours has a different impact on the connector than at 120 meters for 24 hours, but both situations can be defined as an IP68 rating.
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What does the connector housing material need to be? Can it be plastic? Can it be metal? Select the material wisely, as this may impact reliability, weight, and cost. Brass connectors with nickel/chrome plating are traditionally more wear resistant and have longer lifecycles than many other materials. If weight is an issue, aluminum connectors may be an option. Consider plastics for limited reuse and disposable applications. If you are considering plastic, ensure you conduct adequate testing to confirm it will withstand the end use application. If used in medical applications, make sure your connector will withstand the sterilization processes used by the end customer. For aggressively corrosive environments or some food industry applications, stainless steel may be required. Dont sacrifice reliability for cost when deciding what material you select.
At this point, you should also review the operating temperature of the insulating materials used in the connectors you are evaluating. This includes contact insulators, potting materials and o-rings.
Tables A and B can guide you in your selection process.
Now that youve investigated the electrical, termination, sealing, and material requirements, its time to take a look at the frequency your user will connect and disconnect the device over its lifetime. If you require a very high number of mating cycles, consider a connector with 5,000 to 10,000+ mating cycles. This is especially important if a failed electrical connection can put lives at risk, such as in the medical or military environments. Another requirement to have a look at is whether your connector will be able to stay stable in harsh and extreme environments. Many connectors work for example well indoors, but they will lose their performance when they are used under extreme outdoor conditions.
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There are some great things going on with miniaturization today, and you should take advantage of it where you can. It is possible to design in one connector today for an application that would have needed two or three connectors only a year ago, but you have to be careful. Look closely at the details in each connector, since those details become more important as the voltage and current increases. Compare models for pin size, number of pins, and functionality. Miniature connectors are nice packages that fit in small places, but only a few can carry power and signal. These small connectors are extremely difficult to terminate, so often the miniature plugs and receptacles are sold pre-wired to maintain reliability.
Once you have identified your connector, its time to define the raw cable and the cable assembly. Connectors are getting smaller all the time, so its becoming easier to inadvertently spec a small connector that wont work with the larger cable you would like to use. Youll have to look at both the cable and the connector together to make sure that they compatible. Some companies may have custom raw cable in stock that may meet your requirements, eliminating the normal 4-6 weeks of custom raw cable fabrication time. If time is tight, check with your supplier to see if you can take advantage of stocked material.
Most connector manufacturers will provide assembly services to reduce the number of vendors you have to work with. Check out the facility to see whether the company can provide you with termination only capabilities or complete over molding, sealing, and testing capabilities.
Check for realistic delivery dates; delivery on custom connectors from any supplier will always be longer than selecting an off the shelf product. If you can use something thats already designed, you will find it has shorter delivery. Reduced lead times may be available by modifying an existing design. If you decide that a custom connector is the solution you require, make sure that your supplier is committed to the
project over the life of your device. Yes, it is possible to get commercial-grade connectors off the shelf, but a 12-week lead time is not unusual to design and build a custom connector.
Ask suppliers about the kind of support you can expect from their engineering and product development teams. Check out details about design and prototyping services available. Letting someone else look at your device early in the design process often opens up options for cost-saving or time-saving ideas.
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