100G 1290~1320nm SOA Optical Amplifier 1U 1 in 1 out
Product Details
Fiber Mall P/N |
FM-SOA-CH1-LWDM4 | Wavelength |
1290~1320nm |
Rate |
40G/100G | Total Input power |
-20~-10dBm |
Saturation Output Power |
+10dBm | Gain |
+14dB |
Gain ripple |
+7.5dB | Noise Figure |
+2dB |
PDG |
-5 to 50°C | Operating Temperature |
-40 to 85°C |
Operating Humidity |
+5 to 95°C | Storage Temperature |
220VAC, -48VDC |
Power Consumption |
10W | Dimension |
1U 19" 482.6x245x43.6nm |
Quality Assurance
Excellent quality is the foundation of FiberMall' s survival and development. Our operation team are experts with many years' experiences in optical communication industry. Our manufacturers are first-class manufacturers in the industry. Many of them have the qualification of OEM for first-class system equipment manufacturers.
Quality Certification
We control the quality of our products, including our strict qualification of manufacturers, quality control process and production technology, and compliance with certification and safety standards. At present, our products meet the industry standards and mainstream quality certification, such as ISO 9001, CE, RoHS, FCC, etc.
Our Advantages
Short Lead Time
- Fast Delivery
Professional Service
- Technical Support
Worry-Free Guarantee
- Shopping Satisfactorily
Premium Quality
- High stability
Functional structure
Application Scene
Case 1: 100G long distance optical link transmission
The transmission distance of traditional 100GBese-LR4/ER4/ZR4 optical link is limited to 10km. In the transmission of long distance or high loss optical fibers, SOA optical amplifier can be configured to amplify the weak optical power signal on the receiving side to meet the receiving requirements of the equipment.
Case 2: Data link acquisition amplification
In the application of data link acquisition, the optical signal of 100G replication link should usually go through a secondary splitting. The SOA optical amplifier can be configured to amplify the optical signal of the replication link before secondary splitting to ensure that the optical signal after secondary splitting meets the transmission requirements.
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