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JST connector Performance Advantages and Application Scope

Advantages: According to a single connection line, it provides fast data transmission (up to 8Gbps) and the maximum current of the power supply system USB power supply is 3A. Compared with the standardized USB1.8, the charging time is only one third of the original mobile smart terminal Ultra-clear Video Video Interface Video streams can be transmitted through a cable with a dedicated information pair and control contacts for signal transmission, so there is no need for time allocation Compatibility issues USB1.8 enables users to The cable 1.8 interface for data transmission and power supply system reinforcement can ensure long-term durability of the product.Get more news about jst connector production,you can vist our website!
Basic principle: With more and more applications of electronic devices, mobile phones, computers, cameras, etc., the demand for JST connectors is also increasing. At present, the top five main uses of JST connector market sales are vehicles, computers and peripherals, communications, mechanical equipment, aerospace and military equipment, while consumer electronics, transportation electronics, medical electronics, communication electronics, computers and external equipment, etc.
As an indispensable component commodity in electronic equipment, JST connectors play an increasingly important role in the diversification and modular design of electronic equipment.
Mezzanine Connectors Meet IoT Design Demands
Mezzanine connectors have become increasingly important in modern, decentralized, and networked system architectures, like those employed by IoT devices. This is because more and more of the related applications are having to contend with significant space limitations due to both higher densities of board-level components and an overwhelming trend toward compact devices with small, slim housings. One response to this trend is to use stacked boards for system integration. However, this places very particular requirements on the necessary connectors, given that the speeds for digital data transfer on PCBs often reach 10Gb/s or more. In addition to ever-faster data rates and increasing board complexity, board-stacking designs also require increased contact densities.

Today’s mezzanine connectors often have hundreds of contacts, but the corresponding boards have — until recently — been populated with connector clusters extending over a large area. This meant that the only way to achieve more contacts was to use larger connectors, which is counterproductive to the component size reductions required by many modern electronic designs. It can make sense to divide these connector clusters into several smaller connectors, which offers advantages in terms of assembly and routing. However, this approach can cause tolerance problems for conventional single-beam contacts, so users have seldom placed more than one such space-saving mezzanine connector on a board. In contrast, mezzanine connectors with miniature dual-beam contacts and a large capture range of 0.7mm in a 1.0mm pitch, like ERNI’s MicroSpeed Series, make it easy to place multiple connectors on a board. They can also provide developers with greater routing flexibility and fewer board layers and offer high current-carrying capacities and high signal speeds.