FC Fiber Optic Receivers

Description

FC Fiber Optic Receivers are devices used to interpret information contained in optical signals. They consist of a photodetector and various electronics that convert optical signals into electrical signals. These receivers are crucial components in optical communication systems, enabling the transmission of data over fiber optic cables.

Working Principle

FC Fiber Optic Receivers operate by using a photodetector to sense light signals and convert the variations in optical power into corresponding electrical currents. The photodetector must have high sensitivity to the emission wavelength range of the received light signal and minimize noise addition. The electronics within the receiver amplify and process these signals, allowing for the interpretation of weak or distorted signals at high data rates. This makes them useful for maintaining signal integrity over long distances and in environments with potential interference.

Applications

FC Fiber Optic Receivers are used in various applications, including industrial control and factory automation. They are also employed in the extension of RS-232 and RS-485 communication protocols, providing high voltage insulation and eliminating ground loops. These receivers are integral in systems requiring reliable data transmission over optical fibers, such as in telecommunications and data centers.

Advantages over other Fiber Optic Receivers

One advantage of FC Fiber Optic Receivers is their compatibility with a wide range of semiconductor and photodiode types, allowing for flexibility in design and application. They also offer low impedance, which reduces bandwidth and receiver noise, enhancing signal clarity. Additionally, FC connectors are known for their durability and precision, providing secure and stable connections.

Limitations

A specific limitation of FC Fiber Optic Receivers is their sensitivity to the emission wavelength range, which requires careful selection of compatible components to ensure optimal performance. Additionally, the complexity of the electronics involved can lead to higher initial costs and maintenance requirements compared to simpler receiver designs.

Considerations

When considering FC Fiber Optic Receivers, it is important to evaluate initial costs, which can be higher due to the sophisticated electronics and precision components involved. Operating expenses may also be influenced by the need for regular maintenance to ensure accuracy and reliability. Durability is generally high, but replacement and maintenance costs should be factored into long-term budgeting. The accuracy of these receivers is a significant advantage, but it requires careful calibration and setup to maintain performance standards.

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6 Results
Fibre Optic Receivers -- 1894840 - Image
Fibre Optic Receivers -- 1894840 [HFBR-2422Z from Broadcom Inc.]
from RS Components, Ltd.

HFBR-2422 5MBD FIBRE OPTIC RX, FC [See More]

  • Connector Type: FC
  • Rise Time: 3.3
  • Data Rate: 5
Fibre Optic Receivers -- 236694 - Image
Fibre Optic Receivers -- 236694 [HFBR-2422Z from Broadcom Inc.]
from RS Components, Ltd.

HFBR-2422 5MBd fibre optic rx, fc [See More]

  • Connector Type: FC
  • Data Rate: 5
3.5 GHz Linear Photonics Receiver -- MP-2350RX - Image
3.5 GHz Linear Photonics Receiver -- MP-2350RX
from Microwave Photonic Systems, Inc.

The MP-2350RX is a comprehensive family of RF/Fiber Optic Receivers that are designed to provide optical-to-electrical (O/E) conversion of broadband RF signals over a frequency range of 1.0 MHz to 3.5 GHz. The receiver family is comprised of four model variants that operate over a unique frequency... [See More]

  • Connector Type: FC; SC
  • Cable Type: Single mode
  • Receiver Type: PIN Photodiode
  • Responsivity: 0.8500 to 0.9000
AFBR-2310Z Fiber Optic Receiver for Multi GHz Analog Links -- AFBR-2310Z - Image
AFBR-2310Z Fiber Optic Receiver for Multi GHz Analog Links -- AFBR-2310Z
from Broadcom Inc.

The AFBR-2310Z is a compact, high performance, cost effective receiver for multi GHz analog communication over single mode optical fiber. The receiver incorporates a wide bandwidth, low dark current InGaAs/InP PIN photodiode packaged inside a TO-header, together with a high performance E-pHEMT RF... [See More]

  • Connector Type: FC
  • Receiver Type: PIN Photodiode
  • Photodiode Semiconductor: Indium Gallium Arsenic
  • Cable Type: Single mode
Optical Receiver for Industrial Applications with Conductive ST-Threaded Port, RoHS Compliant -- HFBR-2412TCZ - Image
Optical Receiver for Industrial Applications with Conductive ST-Threaded Port, RoHS Compliant -- HFBR-2412TCZ
from Broadcom Inc.

The HFBR-0400Z Series of components is designed to provide cost effective, high performance fiber optic communication links for industrial, power generation, power distribution, medical, transportation and gaming applications. The HFBR-24x2Z fiber optic receiver is designed to operate with the Avago... [See More]

  • Connector Type: FC; SC; SMA; ST
  • Receiver Type: PIN Photodiode
  • Photodiode Semiconductor: Silicon
  • Amplifier Type: Transimpedance
Optical Receiver for Industrial Applications with SC Port, RoHS Compliant -- HFBR-24E6Z - Image
Optical Receiver for Industrial Applications with SC Port, RoHS Compliant -- HFBR-24E6Z
from Broadcom Inc.

The HFBR-0400Z Series of components is designed to provide cost effective, high performance fiber optic communication links for industrial, power generation, power distribution, medical, transportation and gaming applications. The HFBR-24E6Z fiber optic receiver is designed to operate with the Avago... [See More]

  • Connector Type: FC; SC; SMA; ST
  • Receiver Type: PIN Photodiode
  • Photodiode Semiconductor: Silicon
  • Amplifier Type: Transimpedance