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2 points 32 steel pipe type PLC micro splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
2 points 4 channels LC-UPC micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
1 minute 32MINI micro PLC splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
1 minute 16 steel tube type micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
1 minute 16 MINI micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
1 minute 8 steel tube type micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
1 minute 8 MINI steel pipe type PIC splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
1 minute 4 MINI micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
1 minute 2 way SC/APC micro splitter
1 point 16 ABS box type PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
2 points 8 ABS box type PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
1 minute 4 ABS box type PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
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Network Cabinets
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Comply with ANSI/EIA-310-D, IEC297-2, DIN41491; PART1, GB/T15395-1994 standards;
The appearance design is exquisite in craftsmanship and precise in size, keeping pace with the world, adding value to your project;
Compatible with 19" international standards, metric standards, ETS standards;
All are made of thickened 10%-folded profiles combined with SPCC high-quality cold-rolled steel plates;
The high-density mesh front door (patent), mesh rear door, mesh bottom plate, and mesh top cover solve the requirements of mechanical protection, ventilation and heat dissipation, and external observation of operating status;
Optional bottom, top, air supply, exhaust, and heat dissipation to improve equipment operation reliability;
Sturdy structure, static load up to 1200KG;
U-number digits can be recognized as a mark;
The upper and lower wiring channels can be adjusted arbitrarily by switching;
You can choose to install any power distribution unit;
Optional installation base, bottom corner, bottom wheel fixed cabinet;
Easy to disassemble and assemble front and rear doors, left and right doors, top cover and bottom plate;
Sturdy and concise cabinet connection (patent);
Advanced one-touch rotary handle cabinet door lock;
A full range of optional accessories;
Degreasing, pickling, anticorrosive phosphating, pure water cleaning, imported plastic powder, electrostatic high-pressure spraying.
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Address: Xiaoxuzhuang Industrial Zone, Zhouguantun Town, Qing County, Cangzhou City, Hebei Province
Manager:+86-17331733677(Liu Xinli)
Production manager:+86-18303293456(Li Xing)
Sales Manager:+86-18733003099(Liu Wei)
Email:lwm628@163.com
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