Dahua PFT3970 Monomode optical module
by Dahua
General Overview:
- Product Type: Monomode Optical Module
- Model: PFT3970
- Brand: Dahua Technology
- Application: Designed for long-distance, high-performance optical data transmission in network systems.
- Use Case: Primarily used in IP surveillance systems, security networks, and fiber-optic communication for enhancing data transmission over long distances.
Key Features:
-
Transmission Mode:
- Single-Mode (Monomode) optical transmission, optimized for long-distance communication.
- Provides a reliable and high-speed connection over extensive distances (up to 20 km or more) without signal loss.
-
Data Rate:
- Support for 1 Gbps (Gigabit Ethernet) or higher data rate, ideal for high-bandwidth applications such as video surveillance.
-
Wavelength:
- 1310 nm wavelength for effective signal transmission over fiber-optic cables.
-
Connector Type:
- LC (Lucent Connector), a small form-factor connector that ensures secure and efficient fiber optic connections.
-
Fiber Type:
- Single-mode fiber (SMF), ensuring minimal signal attenuation and higher transmission efficiency over longer distances compared to multimode fibers.
-
Distance:
- Up to 20 km transmission range for standard applications. The actual distance may vary depending on the specific fiber infrastructure used.
-
Optical Power:
- Transmitter Output Power typically ranges between -5 dBm to -9 dBm (varies depending on model configuration and distance).
- Receiver Sensitivity typically around -19 dBm, ensuring excellent reception quality at extended distances.
-
Compatibility:
- Compatible with Dahua network devices and other Gigabit Ethernet network equipment.
- Works with Dahua IP cameras, NVRs, and other fiber-optic networking systems to extend the range and reliability of the network.
-
Reliability:
- Stable performance with minimal latency, ideal for high-traffic environments where continuous, uninterrupted data transmission is required.
-
Operating Temperature:
- 0°C to 70°C (32°F to 158°F) operating temperature range, suitable for most commercial and industrial environments.
-
Standards Compliance:
- Compliant with IEEE 802.3 standards for Ethernet, ensuring compatibility with a wide range of network devices and systems.
-
Power Consumption:
- Low power consumption, making it an energy-efficient component in a network setup.
-
Mounting Type:
- Typically used in rack-mounted systems or directly integrated into network devices like media converters, network switches, or NVRs.
Dimensions & Weight:
- Dimensions: Approx. 95mm (L) x 25mm (W) x 10mm (H).
- Weight: Approximately 50g.
Model Number | PFT3970 |
---|---|
SKU | 0000012 |
Reviews
Description
Dahua PFT3970 Monomode optical module. LC connector
The Dahua PFT3970 Monomode Optical Module is a high-performance, single-mode fiber optic module designed for long-distance, high-speed data transmission. Ideal for use in network infrastructures such as IP surveillance systems, telecommunication networks, and data centers, this optical module offers reliable and efficient communication over extended distances. With a wavelength of 1310 nm, it ensures low signal attenuation and high-quality data transmission over distances up to 20 km or more.
The PFT3970 supports Gigabit Ethernet (1 Gbps) speeds, making it well-suited for bandwidth-intensive applications such as video surveillance, large-scale networking, and industrial control systems. It features LC connectors for secure fiber-optic connections and is compatible with a wide range of Dahua network devices, including IP cameras, NVRs, and media converters. The module’s compact design allows easy integration into rack-mounted systems or network switches.
Built to operate within a temperature range of 0°C to 70°C, the Dahua PFT3970 is durable and energy-efficient, ensuring stable performance in various commercial and industrial environments. Whether used in campus networks, telecom setups, or security surveillance networks, this optical module delivers high-speed, low-latency communication that is essential for modern, high-demand applications.