In view of the current measurement requirements in the field of industrial control, it is necessary to measure a lot of signals, tens of volts of voltage and even multiple audio signals. If all these requirements are measured by independent instruments and equipment, it will appear that the whole test system is very complex. Based on this demand, the application scheme of PXI and PXIe chassis is popular in the market, but the equipment designed based on these schemes are relatively high cost and complex to maintain. Therefore, the FIDAS bus independently developed by Finetooling technology, as well as the convenient USB and ETH bus, are integrated into the FIDAS chassis with high efficiency, accuracy and stability, which has achieved a good reputation in the field of semiconductor testing, automotive electronics, environmental monitoring and laboratory instruments.

Innovative design to meet the needs of real-time high-speed data acquisition

  The Fidas chassis is a high-speed, real-time backplane bus data acquisition instrument innovatively researched and developed by Finetooling Technology in response to the current demands for data acquisition in the industrial control domain. It incorporates a unique design philosophy that achieves high bandwidth and low-latency data transmission, ensuring both real-time performance and accuracy. Additionally, the Fidas Data Acquisition Enclosure, apart from its main controller card, supports a variety of Class 7 cards which can be flexibly configured according to actual testing requirements, thereby enabling rapid and precise comprehensive data collection. In 2022, it was honored with the Third Prize of Guangdong Province Measurement Control and Instrumentation Science and Technology Award, among other accolades.

Reduce the cost, improve the cost performance

  Compared with traditional PXI or PXIE chassis, Fidas chassis demonstrates a more cost-effective approach. By optimizing design, selecting cost-effective raw materials and achieving scale production, Finetooling Technology has successfully reduced the cost of Fidas chassis to a more competitive level. This enables more customers to enjoy high-performance data acquisition solutions and improves the cost performance of the product.

Ease of maintenance and reduce operating costs

  In terms of maintenance, the compact design of the Fidas chassis makes the card replacement and maintenance easy and fast. In addition, with the use of Finetooling’s debugging software tool HWSUIT, customers can easily monitor the running status of the chassis, detect and solve potential problems in time, greatly reducing operating costs and downtime.

Flexible extension to meet individual needs

  Another significant advantage of the Fidas chassis is its strong scalability. According to the actual needs, customers can flexibly configure different 7 types of acquisition cards in the chassis. This flexibility not only meets the individual needs of customers, but further reduces the overall cost.

Quality service, all-round support

  Finetooling technology always adhere to the customer-centered service concept. In order to ensure that customers can take full advantage of Fidas chassis, Finetooling Technology provides a full range of technical support and after-sales service. Whether it is installation and debugging, technical training or troubleshooting, Finetooling Technology's professional team will provide help to customers in the first time. In addition, Finetooling Technology also regularly releases software updates and feature optimizations to meet customer needs.

Looking forward to the future, leading a new chapter in the field of industrial control

  Finetooling Technology will continue to pay attention to the industry dynamics and technology development trends. In the future, the Fidas data acquisition chassis is expected to be further upgraded and improved to meet the data acquisition needs of more fields and scenarios. Finetooling Technology will continue to uphold the concept of innovation, quality and service, leading the field of industrial control to a new chapter.