MH4001 MH4002 MHV4002 RHEE4002-1.5W Mitsubishi ESKA Plastic optical fiber cable
As early as the 1970s, Mitsubishi developed a plastic optical fiber with PPMA and polystyrene as the core material and a low refractive index fluoroplastic as the cladding. Since then, it has continued to develop. At present, its plastic optical fiber has developed multiple levels The product.
Optical fiber cable formed by bare fiber through coating process. You can choose SUPER ESKA, ESKA PREMIER, ESKA MEGA series according to the actual use.
GH-grade credit. It is widely used in automotive network connection and industrial control applications. Can optimize the characteristics of the machine. Heat-resistant temperature of 85 degrees.
SH level standard level. It is used as people's livelihood data communication, sensor. 70 ° C
Low-grade fiber that is widely used for SH-grade sensing and communication applications. Common models are single-core SH-1001-1.0, SH-2001-J, SH-4001
SH-4001-1.3, SH-6001, dual-core has SH-4002, multi-core specifications are 0.265mm core series SH-1004-N, SH-1009-1.25, SH-1016,
SH-1032, SH-1064
LH Grade Cable:Multicore High Flex Cable Mitsubishi LH2001 LH4001-1.3 LH4001
Application range of communication plastic optical fiber:
For fiber to the home (FTTH)
Cooperating with quartz optical fiber, it is effective at the end of the broadband network. Plastic optical fiber is a good solution to the problem of "last few hundred meters".
For consumer electronics
Plastic optical fiber is used for navigation equipment, in-vehicle communication and in-vehicle entertainment audio-visual systems, in-vehicle TV, DVD player, audio, lamps, digital switch sensor connection lines.
Used for car intelligence
Plastic optical fiber is used for navigation equipment, in-vehicle communication and in-vehicle entertainment audio-visual systems, in-vehicle TV, DVD player, audio, lamps, digital switch sensor connection lines.
For industrial control and monitoring systems
Plastic optical fiber can be used for control lines in strong magnetic fields in power plants and substations, equipment-to-device connection in industrial control, sensor information connection, detection target changes, and network transmission detection image information.
Used for military communications
It has been widely used in the loading equipment of battlefield mobile networks, military command systems, combat vehicles, fighter planes, and warships, and its role in future electronic warfare is difficult to replace
