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Suppliers provide several types of the transmitter 1310 to buyers in bulk. These are some common types:
This device operates at the wavelength of 1310 nm. This wavelength is commonly used in medium-distance fiber optic cables of up to 10 km. It employs advanced modulation techniques. These techniques enhance the signal quality for reliable long-distance transmission.
The cables are made with glass or plastic fibers that are designed to transmit light signals. 1310 transmitters and fiber cables work together to send and receive data effectively in telecommunications.
1310 transmitters are often integrated into transceiver modules. The transceivers modulate data signals for 1310-nm optical transmission.
These modules are small, plug-in devices used in networking equipment. They are flexible in data rates and transmission distances. Buyers can choose a transceiver with a 1310 transmitter for specific fiber types and network distances.
These devices are semiconductor components that emit laser light at the 1310 nm wavelength. They are used for data transmission over long distances in fiber optics.
1310 nm laser diodes are chosen when higher power and longer transmission ranges are needed. They are commonly used in long-haul telecom networks, CATV systems, and other high-performance applications. Your laser lens suppliers will have these laser diodes in stock.
The transmitters utilize the 1310 nm wavelength in harsh environments like manufacturing plants and mines. They provide reliable temperature measurements even with heavy particulate matter interference. This makes them ideal for monitoring temperature in areas that are difficult to access.
Many Transmitter 1310s are built to withstand the rugged environments found in industrial settings. They have protective housings that shield them from dust, water, and extreme temperatures. For this reason, the 1310 nm laser applications are suitable for outdoor use.
Moreover, since they are housed in strong enclosures, users don't have to worry about physical damage, which adds to the long-term reliability of these transmitters in challenging conditions.
Transmitter 1310s have high sensitivity to ensure accurate data transmission over long distances. They can detect weak optical signals and maintain signal integrity.
These include powerful lasers and sensitive photodiodes. Such features make them suitable for telecoms requiring high-performance signal reception.
Many Transmitter 1310 models come equipped with advanced temperature-resistant technology. It helps ensure stable operation across a wide range of temperatures.
For example, the 1310 nm temperature transmitter can effectively work in environments with extreme heat or cold. It is ideal for industries like oil and gas or manufacturing where temperature variations are extreme.
These transmitters are designed to provide long-range fiber optic transmission. They are equipped with powerful laser diodes or light-emitting diodes that emit signals at the 1310 nm wavelength.
This wavelength is ideal for medium to long distances, typically up to 10 km for standard telecom applications. Buyers can also find models that go up to 40 km with diminished signal loss.
1310 Transmitters have a function in telecommunications as they enable long-distance data transmission through fiber optic cables. They modulate light signals at the 1310 nm wavelength.
Thus, they offer minimal signal loss over medium to long distances. Due to their high sensitivity and low attenuation, they are ideal for maintaining the clarity and speed of voice, data, and video transmissions. This makes them vital for businesses offering broadband services.
In industrial environments, 1310 transmitters provide non-contact monitoring of equipment, such as furnaces and reactors. They help measure temperatures accurately in areas that are difficult to access.
This capability has a direct impact on safety and efficiency in industries. For example, in mining operations, metallurgists rely on accurate temperature readings to control the smelting process. It's no longer necessary to send workers into dangerous environments.
Transmitter 1310 helps businesses maintain fast and reliable communication networks. They are used in data centers and corporate networks to support high-speed data transfer between routers, switches, and servers.
Since they can be integrated into transceiver modules, they are eye-catching to network administrators who need flexible, scalable solutions for their fiber optic networks. It will help if you buy these transmitters in bulk from reliable optical fibers manufacturers.
These transmitters are useful in medical applications for non-invasive diagnostics. They function in biomedical imaging systems to send data about patients' vitals without needing physical contact.
This capability improves patient comfort and care. It makes it easier for nurses to track data in real-time without affecting the patient's routine.
One should choose a transmitter model with the right range for their clients' projects. Longer transmission distances might need 1310 nm laser diodes or transceiver modules. Meanwhile, shorter distances might only require LED.
Customers will be happy if they buy transmitters that can handle their target systems' required data rates. High-speed applications like telecoms require transmitters compatible with 1G to 10G data rates. Always check that the transmitter can handle the data rate of their clients' systems. It ensures reliable performance and signal integrity.
Ensure that the transceiver or transmitter that the business chooses is compatible with the fiber type the clients will use. These fibers include single-mode and multi-mode fibers. Single-mode fiber usually works well with laser diodes and 1310 nm transmitters.
Customers will most likely use the transmitter in mines, manufacturing facilities, or outdoor environments. In these harsh conditions, choose transmitters with rugged housings or IP-rated enclosures. These features offer protection against dust, moisture, and extreme temperatures.
While 1310 nm transmitters work with various receivers, certain factors must be considered to ensure compatibility.
For example, using a cost-effective receiver may be suitable for certain applications. However, in longer distances or higher data rates, a high-performance receiver may be necessary to maintain signal integrity.
They are valuable in remote temperature monitoring setups. They transmit data collected by sensors to a centralized monitoring system. Since they use fiber optic cables, they can operate in hazardous environments where electrical wiring is not safe or practical.
The main difference between the two is their wavelengths. 1310 transmitters are ideal for short to medium distances. 1550 transmitters are best for longer distances.
In some cases, dual-wavelength systems use both. The choice between them depends on the application's specific requirements. This includes distance, data rate, and environmental conditions.
1310 transmitters have minimal maintenance apart from periodic inspections. Regular checks for fiber damage or connector cleanliness are necessary. Routine testing of signal strength helps ensure optimal performance.
Yes. These transmitters work well in IP-based video surveillance systems over long distances. They enable real-time video data transmission. Their role makes them a critical component in ensuring reliable performance in surveillance networks.
