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Wuhan Seifree Technology Co., Ltd.

Circulator, Fiber Optic, Fiber Optic Circulator manufacturer / supplier in China, offering Fiber Optic Circulator (1310nm RoHS), 1*32 PLC Splitter in 1u 19′ Rack Mount with Sc/APC, 1*32 PLC Splitter with Sc/APC in Plastic Box and so on.

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Fiber Optic Circulator (1310nm RoHS)

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FOB Unit Price: US $20 US $20
Purchase Qty. (Pieces) FOB Unit Price
1-99 US $20
100+ US $20
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Production Capacity: 10000 PCS/Year
Payment Terms: T/T

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Basic Info
  • Model NO.: 1310nm C Band /L Band
  • Condition: New
  • Origin: Wuhan
  • Certification: ISO, RoHS
  • Trademark: Seifree
Product Description
The device used in optical communications systems, an optical circulator is built to pass light from one optical fiber to another. The movement occurs in the same direction the light is traveling, from the first port to the second, or the second to the third port. Most of these devices have three ports, and the incoming light beams can't go back to other port, which means the device is non-reciprocal. These optical devices are used to pass light from a unidirectional to a duplex fiber communication link and also in optical testing instruments such as optical time-domain reflect meters.
An optical circulator is similar to an optical isolator in that it is used to move light forward, although an isolator also works to prevent the light beam from reversing direction. There is typically some loss of light energy in the isolator, but the circulator directs all of the light to the output port and into the next optical fiber. Optical circulators typically have three ports, but many applications only require two, so they can be built to block any light that hits the third port.
Light rays in Optical Circulator can be redirected by using components such as a Faraday rotator. A spatial walk-off polarizer splits the light into horizontal and vertical beams. Light also passes through a half wave plate and all of the components in the circulator pass the beam toward the output port. The separated light rays in the optical circulator are recombined before getting to the exit port by a polarizing beam splitter cube and a reflector prism, which condition the light for continuation through the next fiber.
When an optical circulator is used in a communication system, engineers don't have to use the series of transmitters, receivers, and amplifiers that would otherwise be necessary. It is a more expensive component but fewer parts are needed and the fiber optic infrastructure ends up being more simple and reliable as well. A circulator, transmitter, and receiver can be built into the same device if need be.
A fiber optic system is also made more efficient because the optical circulator minimizes the loss of light. The beam goes in one direction with effective separation of the signals coming in and going out. Systems with isolators and beam splitters tend to drain some of the light's energy. An optical circulator is, however, an efficient means for conveying a light signal and makes the design of communication systems more economical.
Because of the optical circulators' high isolation and low insertion loss, they are widely used in advanced communication systems as add-drop multiplexers, bi-directional pumping, and chromatic dispersion compensation devices.
The example to the under depicts the use of a circulator to drop an optical channel from a DWDM system using a fiber Bragg grating (FBG). The input DWDM channels are coupled into Port 1 of the device with a FBG device connected to Port 2. The single wavelength reflected off the FBG then reenters the circulator in port 2 and is routed accordingly to Port 3. The remaining signals pass through the FBG and exit on the top fiber.
Fiber Optic Circulator (1310nm RoHS)
Optical circulators can also be used to send optical signal in two directions down a single fiber. A circulator is located at both ends of the fiber. Each circulator functions to add a signal in one direction while removing the signal in the other. See the example below
Fiber Optic Circulator (1310nm RoHS)
Fiber Optic Circulator (1310nm RoHS)
Wavelength Ports Fiber Type Pigtail Dia. Pigtail Length Package Connector Type
O=1310nm 3=3 Ports E=SMF-28e 02=0.25mm 05=50cm A7 FU(A)=FC/UPC(APC)
C=1550nm   / 09=0.9mm 10=100cm B1 SU(A)=SC/UPC(APC)
L=1590nm     20=2mm ^ C1 ^
/     30=3mm 20=200cm D1(3) LU(A)=LC/UPC(APC)
Package and Mounting Dimension (mm)
Stainless Steel Tube (A) Plastic Box (B) Aluminum alloy Box (C) Aluminum alloy Rack (D)
Outline Outline Outline Mounting Outline Mounting Outline
A1=Φ3x50 A5=Φ5.5x34 B1=90x20x9.5 50x12x2Φ3.2 C1=85x18x8.4 44.5x13x2Φ3 D1=129x29x160(LGX)
A2=Φ3x54 A6=Φ5.5x38 B2=100x80x10 70x73.5x4Φ3.2 C2=90x72x8 86x68x4Φ3 D2=129x58x160(LGX)
A3=Φ3x60 A7=Φ5.5x50 B3=120x80x18 80x74.5x4Φ3.2 C3=110x95x7.5 99x84x4Φ3.5 D3=485x43.5x230(19' Rack)
A4=Φ5x70 A8=Φ5.5x64 B4=141x115x18 100x106x4Φ3.2 C4=110x95x15 99x84x4Φ3.5 D4=485x87x230(19' Rack)
Item φ0.25 Stainless φ0.9Stainless φ2/3Stainless φ0.9(φ2,φ3) Plastic φ0.9(φ2/φ3) Aluminum Alloy LGX 19'Rack
1X2 A7 A7 / B1 C1 D1 /
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