In fact, smart wearable devices are already a fairly mature concept, such as various smart watches, sports bracelets, smart glasses, smart clothes, etc. Through software support and data interaction, these devices can achieve various functions including monitoring, recording, connection, analysis, and display. It can work independently, or use cloud data transmission to cooperate with other devices to achieve functions.
As a type of supplementary consumer electronic products, it currently mainly meets the application in the two fields of sports and fitness and medical care. These two user groups have high consumption willingness, strong purchasing power, and a wide range of people to be developed, and have great potential.
Around this huge market, not only terminal products, but upstream component manufacturers are also gradually adjusting their product directions to provide product support for smart wearable devices that are miniature, soft, sensitive, with more powerful transmission performance and computing performance.
The connector is an important presence in the entire electronic system that affects the whole body, and its technological development is very important for the realization of the performance concept of smart wearable devices.
Currently, most manufacturers are unable to develop connectors for smart wearable devices. The reason is actually the cost.
The connector product technology applied to smart wearable devices is not simple. The effects of light and thin design, superior performance, large capacity, and low power consumption in smart wearable devices must rely on high-performance components to achieve.
Therefore, important components such as FFC/FPC flexible connectors, board-to-board connectors, PogoPin connectors, SIM and SD card sockets used in wearable devices must also save space, pass large currents, and have high robustness. Features.
How to realize the integrated connection of the micro devices inside the wearable device?
How to maintain signal and power integrity in short-distance, low-power wireless transmission?
How to make the connector have more powerful environmental performance to obtain better temperature resistance, better impact resistance, stronger abrasion resistance, and water resistance?
These are a major challenge to the current level of connector manufacturing.
Clear and closed customer groups often lead to serious product homogeneity, and low-price competition runs through the upstream and downstream of the industry. Under cost pressure, manufacturers lacking cost control capabilities and independent research and development capabilities can only reduce performance or use existing connectors for tablets, smartphones, and wireless headsets. Directly lead to the decline of consumers' trust in the product and affect the image of the entire brand.
In order to avoid falling into the dilemma of low-cost and low-quality consumption, choosing a connector manufacturer that is reasonably priced, has excellent product performance, and has a mature technology research and development team, can cooperate with product technology innovation is the way to break the situation.
TXGA provides one-stop R&D services, taking the standard mold base quick mold change as the design concept, using professional engineering analysis methods and simulation software to avoid design errors and reduce mold repair costs. Over the years, R&D investment has accounted for more than 6% of annual sales, and has more than 100 practical patents and inventions, and is certified by the National High-tech Enterprise. Has a wealth of high-precision, low-cost, high-performance connector development experience. R & D strength is trustworthy.
We know that innovation is the soul of the technology industry.
With continuous technological breakthroughs, TXGA focuses on providing innovative connector products for the industry, and lays a solid foundation for technological innovation in the connector field as an architect.
