First, monitoring the optical transmission medium and its characteristics
The medium used to monitor the optical transceiver is optical fiber. So why choose to transmit it through optical fiber? The main component of the optical fiber is silicon dioxide (SiO2), which accounts for a large proportion of the minerals in the entire earth, usually In stone, sand can be extracted. Fibers made of silicon dioxide (SiO2) are brittle as glass and fine as hair. From its internal composition, optical fibers are classified into single-mode fibers and multi-mode fibers. The core diameter of single-mode fibers is 9 μm, and the core diameter of multi-mode fibers can be divided into 50 μm and 62.5 μm. Due to the composition of the optical fiber, it has the characteristics of long transmission distance, non-conductivity, strong anti-interference ability, good confidentiality, etc. It is usually the first choice of the majority of engineering companies in long-distance transmission.
Second, the optical fiber transmission system needs debugging, testing equipment
1, optical welding. It is mainly through the electrode, in the case of an instantaneous discharge, the optical fiber and the optical jumper welding together, in the welding, it should pay attention to the end of the optical fiber to be neatly cut, and to maintain the clean end.
2, OTDR optical time domain reflectometer. This is a testing instrument that mainly detects whether there is a fiber break during fiber transmission.
3, the optical power meter literally, it is a power measuring instrument, but it does not measure the voltage power, but the power of the optical fiber transmission, and the attenuation of light in the transmission process.
Third, monitor the application of optical transceiver
With the ever-increasing social security requirements, surveillance optical transceivers have been widely used in monitoring systems in various industries such as smart communities, factories and mines, urban security, banking networks, road traffic bays, electronics* and highway toll collection. . It guarantees the real-time and security of the transmission, and has a large transmission capacity. It not only transmits video, but also transmits audio, data, telephone and Ethernet at the same time, which is respected by people.
Planar beam load cells, otherwise known as planar force sensors, are designed for compact solutions where there's limited space. They can be effectively used as single units or as a part of a multi-load cell structure for platform scales.
These innovative sensors are most utilized in applications that require three or four units per instance, focusing on point-of-sale scales or weighing systems ranging from 10 to 400 pounds. Their sleek, low-profile design makes them a preferred choice for a wide spectrum of uses. They find application in medical settings for weighing hospital beds, chairs, infants, and equipment within incubators.
Furthermore, their usage extends to retail sectors, incorporated in checkout counters and retail scales. Agricultural setups also benefit from these sensors for various devices, bench scales being a prime example.
Among these, the ultra-thin flat sensor is a popular choice owing to its portability and aluminum alloy construction. Primarily, it caters to the needs of weight scales, postal scales, and other handheld ultra-thin countertop electronic scales, enhancing convenience and accuracy in the weighing process.
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Zhejiang Nanhua Electronic Technology Co., Ltd , https://www.nhloadcells.com