89099-114LF Product Introduction:
Amphenol ICC (FCI) Part Number 89099-114LF(Backplane Connectors - Specialized), developed and manufactured by Amphenol ICC (FCI), distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
89099-114LF is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately sales@jinftry.com Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.
Backplane Connectors - Specialized refers to backplane connectors designed and produced to meet the needs of specific industries or applications. These connectors are carefully optimized in terms of structure, materials, electrical properties, etc., to ensure the best performance in a specific working environment. They not only inherit the basic functions of traditional backplane connectors, such as connecting circuit boards, transmitting signals and currents, but also put forward higher customization requirements for specific application scenarios, such as high temperature resistance, corrosion resistance, electromagnetic interference resistance, etc.
Application
Backplane Connectors - Specialized applications are broad and diverse, mainly covering industries with high requirements for electrical connection performance. First of all, in the aerospace field, backplane connectors - dedicated are widely used in the electrical systems of aircraft, satellites and other equipment to ensure the reliability and stability of electrical connections in harsh environments such as extreme temperatures, high vibration and strong electromagnetic radiation. Secondly, in the field of military defense, such connectors also play an important role in providing stable and reliable electrical connections for weapons and equipment and command and control systems. In addition, backplane connector - dedicated is also widely used in industrial automation, medical equipment, high-speed railway, Marine engineering and other fields.
FAQ about Backplane Connectors - Specialized
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1. What is a backplane connector?
A backplane connector is a connector used in large communication equipment, ultra-high performance servers, giant computers, industrial computers, high-end storage devices, etc. Its main function is to connect a single board (daughter card) and a backplane, so that the single board and the backplane form a 90-degree vertical structure, thereby transmitting high-speed differential signals or single-ended signals and large currents
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2. How to use the backplane connector?
The main function of the backplane connector is to connect the single board (daughtercard) and the backplane to form a 90-degree vertical structure, which is used to transmit high-speed differential signals or single-ended signals and transmit large currents. This connector usually consists of a metal slot and several circuit chips. By inserting the external device into the slot, the communication function between the external device and the computer motherboard is realized. The backplane connector is generally located on the back of the computer case, hence the name. Its main purpose is to connect the motherboard and various peripheral devices, thereby expanding the input and output functions of the computer, such as connecting a printer, mouse, keyboard, monitor, etc. At the same time, it is also an indispensable component for upgrading computer hardware. Users can add new expansion functions or replace damaged original ports by replacing the backplane connector.
The production process and quality management of the backplane connector have strict requirements because of the diversification and refinement of its internal structure. In order to meet the interface requirements of various different devices, the backplane connector needs to have various complex arrangements, pin numbers and shapes, etc. At the same time, on the basis of ensuring the quality and stability of signal transmission, it is also necessary to consider the compatibility of metal slots with external devices and mechanical strength.
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3. Application of backplane connectors?
Backplane connectors are a key component that is widely used in large-scale communication equipment, ultra-high-performance servers and supercomputers, industrial computers, and high-end storage devices. Its main function is to connect the single board (daughter card) and the backplane, realize the 90-degree vertical structure between the single board and the backplane, transmit high-speed differential signals or single-ended signals, and transmit large currents. This connection method is not only suitable for the field of data exchange, such as inside the switch, but also with the development of technology, it has now become the core application scenario of AI servers, almost all of which use backplane connectors for connection, replacing traditional optical modules.
The application of backplane connectors is not limited to the above-mentioned devices. It also plays an important role in wireless communication, the connection between computer motherboards and various peripheral devices, allowing users to increase or decrease the input and output functions of the system by plugging and unplugging devices, including USB interfaces, audio interfaces, network ports, etc. This connector is generally located on the back of the computer chassis, hence the name.
With the advancement of technology, the importance of backplane connectors in AI servers and high-speed network equipment has become increasingly prominent. In particular, the NVLink technology launched by NVIDIA has demonstrated a trend of high integration by integrating multiple PCC boards into one PCB board, further promoting the improvement of network performance. This requires the design of connectors to improve data transmission efficiency, reduce costs and signal density, despite challenges such as transmission distance limitations.