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Fiber Optics - Transmitters - Drive Circuitry Integrated

Category Introduction

Fiber optic transmitters with integrated drive circuitry include a light source such as an LED or laser as well as signal conditioning electronics used to inject a signal into a fiber optic cable. Common applications are digital audio, DVI, Ethernet, HDMI, telecommunications and general data transfer. Fiber optic transmitters are differentiated by transmission wavelength and data rate expressed in bits per second.

Product List

1 Items
PDF Mfr Part # Quantity
Available		 UnitPrice RFQ Series Packaging Product StatusWavelengthData RateVoltage - SupplyCurrent - SupplyApplications
AFBR-1624Z
AFBR-1624Z
TXRX OPT 650NM 1MM POF
Broadcom Limited
 7 $22.03
Versatile Link Bulk Active650nm50MBd3.135V ~ 3.465V, 4.75V ~ 5.25V21 mA-

About Transmitters - Drive Circuitry Integrated

What are Transmitters - Drive Circuitry Integrated?

Transmitters - Drive Circuitry Integrated

Transmitters with integrated drive circuitry are sophisticated devices used in the fiber optics industry to convert electrical signals into optical signals for transmission through optical fibers. These devices incorporate both the light source, typically a laser diode or LED, and the necessary drive circuitry in a single package. The drive circuitry modulates the light source based on the input electrical signal, ensuring that the optical output accurately represents the original data. This integration simplifies the design and reduces the size and cost of optical communication systems, making them more efficient and reliable.

Types of Transmitters - Drive Circuitry Integrated

1. Laser Diode Transmitters

Laser diode transmitters are known for their high-speed capabilities and are often used in applications requiring long-distance data transmission. They offer precise control over the light output, making them ideal for high-bandwidth applications. These transmitters are typically used in telecommunications and data centers where speed and efficiency are paramount.

2. LED Transmitters

LED transmitters are generally used for short-distance communication due to their lower cost and simpler design compared to laser diodes. They are suitable for applications where high-speed data transmission is not critical, such as local area networks (LANs) and consumer electronics. Their robustness and ease of use make them a popular choice for many basic optical communication needs.

3. Vertical-Cavity Surface-Emitting Lasers (VCSELs)

VCSELs are a type of laser diode that emits light perpendicular to the surface of the semiconductor chip. They are used in applications requiring moderate distances and speeds, such as data communication within data centers. VCSELs offer advantages in terms of power efficiency and ease of integration into optical systems.

How to choose Transmitters - Drive Circuitry Integrated?

When selecting transmitters with integrated drive circuitry, several key parameters should be considered:

  • Data Rate: Ensure the transmitter supports the required data transmission speed for your application.
  • Wavelength: Choose a wavelength compatible with the optical fiber and other components in the system.
  • Distance: Consider the transmission distance and select a transmitter that can maintain signal integrity over that range.
  • Power Consumption: Evaluate the power efficiency to ensure it meets the system's energy requirements.
  • Environmental Conditions: Assess the operating temperature range and other environmental factors to ensure reliability in the intended application setting.

To evaluate product quality and reliability, review supplier specifications, certifications, and customer feedback. Consider conducting performance tests under simulated operating conditions. Installation requirements, such as connector types and mounting options, should also be considered to ensure compatibility with existing systems.

Applications of Transmitters - Drive Circuitry Integrated

1. Telecommunications

In the telecommunications industry, these transmitters are used to facilitate high-speed data transfer over long distances. They are integral to the infrastructure of internet service providers and mobile networks, ensuring efficient and reliable communication.

2. Data Centers

Data centers rely on these transmitters for internal data communication, connecting servers and storage systems. Their ability to handle high data rates and maintain signal integrity over moderate distances is crucial for the seamless operation of cloud services and enterprise networks.

3. Medical Imaging

In medical imaging, these transmitters are used to transmit high-resolution images from imaging devices to display systems. Their precision and reliability are vital for accurate diagnostics and patient care.

4. Industrial Automation

Industrial automation systems use these transmitters to connect sensors and control systems, enabling real-time monitoring and control of manufacturing processes. Their robustness and reliability are essential for maintaining operational efficiency and safety.

5. Consumer Electronics

In consumer electronics, these transmitters are used in devices such as home networking systems and multimedia equipment. They enable high-speed data transfer for streaming and connectivity, enhancing the user experience.