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Fiber Optics - Receivers

Category Introduction

Discrete fiber optic receivers are photodiodes in an adaptive housing used to receive a signal over a fiber optic cable. The device contains no drive circuitry. Fiber optic receivers are differentiated by data rate, receivable power, voltage supply and current consumption. Adaptive housings may accommodate connector types such as FC, PC, SC, SMA, ST, TOSLINK, Versatile link and connector-less solutions.

Product List

7 Items
PDF Mfr Part # Quantity
Available		 UnitPrice RFQ Series Packaging Product StatusData RateVoltage - SupplyPower - Minimum ReceivableCurrent - SupplyApplications
HFBR-2521Z
HFBR-2521Z
RECEIVER FIBER OPTIC 600NM 5MBD
Broadcom Limited
 15 $14.54
Tube Active5MBd4.75V ~ 5.25V-43dBm10 mA-
HFBR-2531Z
HFBR-2531Z
RECEIVER FIBER OPTIC VERT 5MBD
Broadcom Limited
 15 $17.24
Bulk Active5MBd7V-10 mA-
HFBR-2522Z
HFBR-2522Z
RECEIVER FIBER OPTIC 600NM 1MBD
Broadcom Limited
 2 $14.50
Bulk Active1MBd4.75V ~ 5.25V-24dBm10 mA-
AFBR-2624Z
AFBR-2624Z
RCVR OPT DC-50MBD 1MM POF
Broadcom Limited
 30 $22.06
Bulk Active50MBd3.3V, 5V-20 mAGeneral Purpose
HFBR-2412TZ
HFBR-2412TZ
RECEIVER FIBER OPTIC 5MBD TTL ST
Broadcom Limited
 9 $26.20
Bulk Active5MBd4.75V ~ 5.25V-25.4dBm10 mA-
AFBR-2418TZ
AFBR-2418TZ
TXRX OPT 50MBD THRD ST PORT
Broadcom Limited
 23 $36.20
AFBR-24x8xZ Bulk Active50MBd3.135V ~ 5.25V-24dBm30 mAOptical
HFBR-2528Z
HFBR-2528Z
RECEIVER FIBER OPTIC 600NM 10MBD
Broadcom Limited
 311 $0.00
Bulk Obsolete10MBd4.75V ~ 5.25V-45 mA-

About Fiber Optics - Receivers

What are Fiber Optics - Receivers?

Fiber Optics - Receivers

Fiber optics receivers are crucial components in optical communication systems, responsible for converting optical signals back into electrical signals. These devices work by detecting the light transmitted through fiber optic cables and translating it into electronic data that can be processed by computers and other electronic devices. The basic operating principle involves a photodetector, typically a photodiode, which absorbs the incoming light and generates a corresponding electrical current. This current is then amplified and processed to retrieve the original data signal, ensuring efficient and accurate data transmission over long distances.

Types of Fiber Optics - Receivers

PIN Photodiode Receivers

PIN photodiode receivers are widely used in fiber optic communication systems due to their simplicity and cost-effectiveness. They are suitable for applications requiring moderate sensitivity and bandwidth. The PIN photodiode operates by generating a photocurrent when exposed to light, which is then amplified to produce an electrical signal. These receivers are ideal for short to medium-range communication systems.

Avalanche Photodiode (APD) Receivers

APD receivers are designed for high-sensitivity applications, offering enhanced performance in low-light conditions. They utilize the avalanche multiplication effect to amplify the photocurrent, providing greater sensitivity and bandwidth compared to PIN photodiodes. APD receivers are commonly used in long-haul communication systems and environments where signal attenuation is a concern.

Integrated Receiver Modules

Integrated receiver modules combine photodetectors, amplifiers, and other electronic components into a single package, offering a compact and efficient solution for fiber optic communication. These modules are designed for high-speed data transmission and are often used in advanced telecommunication networks and data centers.

How to choose Fiber Optics - Receivers?

When selecting fiber optics receivers, several key parameters should be considered:

  • Sensitivity: Determine the minimum optical power the receiver can detect. Higher sensitivity is crucial for long-distance communication.
  • Bandwidth: Ensure the receiver can handle the required data rate for your application.
  • Noise Figure: Evaluate the receiver's noise performance to ensure signal integrity.
  • Compatibility: Check compatibility with existing systems and fiber types.
  • Environmental Factors: Consider temperature range, humidity, and other environmental conditions that may affect performance.

To evaluate product quality and reliability, review supplier certifications, customer reviews, and warranty offerings. Installation requirements, such as space constraints and power supply, should also be considered to ensure seamless integration into your system.

Applications of Fiber Optics - Receivers

Telecommunications

In the telecommunications industry, fiber optics receivers are integral to high-speed internet and voice communication systems. They enable the transmission of large volumes of data over long distances with minimal signal loss, supporting the backbone of global communication networks.

Data Centers

Data centers rely on fiber optics receivers for efficient data transfer between servers and storage systems. These receivers facilitate high-speed data processing and storage, ensuring the seamless operation of cloud services and enterprise applications.

Medical Imaging

In medical imaging, fiber optics receivers are used in endoscopic and other imaging systems to transmit high-resolution images from inside the body to external monitors, aiding in accurate diagnosis and treatment planning.

Industrial Automation

Fiber optics receivers play a critical role in industrial automation, enabling real-time data communication between sensors, controllers, and monitoring systems. They ensure precise control and monitoring of manufacturing processes, enhancing efficiency and productivity.

Military and Defense

In military and defense applications, fiber optics receivers are used in secure communication systems, radar, and surveillance equipment. They provide reliable and secure data transmission in challenging environments, supporting mission-critical operations.