Qingdao ZITN Technology company was established in 2002 by an experienced engineers team, and located in the beautiful coastal city-Qingdao, its develops and markets the full product line of inertial navigation technology including accelerometers, I/F converters, power supply products, telemetry sensors, integrated circuits design, multi-chip packaging and testing. The products have been widely used in the fields of contemporary defense industry, energy drilling, intelligent transportation and factory.
Experience in the hybrid thick film IC &high end sensors development and manufacture fields : >18 years
Has the invention patents :> 40 projects
Has scientific institution, production base :>20000㎡
Technical engineers account for the proportion:>30%
The number of customers cooperated in recent 3 years :832
The sensor annual production capacity: >100000
Professional pre-sales, after sales guide, solutions system.
Customize products according to customer requirements.
The device is looking very good, These data are not filtered, so I am very pleased with the result.
Competitive price and great after sales service, I do believe it's a good choice.
I was impressed after visted their R&D, production, management team, It's one of the representatives of high - end electronic technology and the leading of made in China.
Miniature mining orientation sensors are core components for achieving high-precision spatial positioning and attitude measurement in mining engineering. By leveraging integrated sensing technologies and intelligent algorithms, they provide critical data support for mineral exploration, extraction, ground support, and equipment navigation. This article will explain the working principles, technical features, and industry applications of these sensors, using the DS550LT-A miniature orientation sensor developed by ZITN as an example.
Excited to announce that we will be exhibiting at CIPPE 2026! Come visit us to explore our latest innovations and discuss how we can support your projects.
In extreme environments such as oil exploration, aerospace, geothermal development, automotive electronics, and industrial automation, electronic equipment often needs to operate stably under harsh conditions involving high temperatures, high humidity, and strong vibration. Particularly in scenarios like downhole measurement, engine control, and geothermal monitoring, ambient temperatures can persistently exceed 150°C, and even reach above 200°C. This poses severe challenges for core storage devices: conventional commercial memories are prone to failure at high temperatures, and data loss or read/write errors can directly lead to system paralysis, resulting in high maintenance costs and safety risks.
