10G CWDM XFP ER 1270nm 40km
- Supports 9.95.0Gb/s to 11.3Gb/s bit rates
- Hot-pluggable XFP footprint, Built-in digital diagnostic
- Maximum link length of 40km with SMF
- CWDM Uncooled DFB laser and PIN photodiode
- XFP MSA package with duplex LC connector
- No reference clock is required
- Single +3.3V power supply
- Power dissipation <2.5W
- Compatible with RoHS
Warranty : 30-Day Free Return, 3-Year Free Replacement, 5-Year Warranty, Lifetime After-sales Technical Support.
| Model Name | CWDM-XFP-ZR-XX | Vendor Name | Walsun |
| Form Factor | XFP | Max Data Rate | 10.3125Gbps |
| Wavelength | 1470nm-1610nm | Distance | 40km |
| Connector | LC duplex | Optical Components | EML CWDM |
| Media | SMF | DDM Support | Yes |
| TX Power | 0~4dBm | Receiver Sensitivity | < -23dBm |
| Commercial Temperature Range | 0 to 70°C (32 to 158°F) | Protocols | SFP+ MSA Compliant, CPRI, eCPRI |
Q: How does a 10G XFP optical module adapt to different transmission distances with various fiber types?
A: By employing different types of laser and receiver components, the 10G XFP optical module can accommodate both multi-mode fiber (MMF) and single-mode fiber (SMF). Multi-mode versions, suitable for short-range transmissions, utilize VCSELs (Vertical Cavity Surface Emitting Lasers), while single-mode versions employ DFB (Distributed Feedback) or EML (Electro-absorption Modulated Laser) lasers for longer distances.
Q: What wavelengths do 10G XFP optical modules operate at?
A: Wavelengths vary according to application, typically including 850nm (for short-distance multi-mode 10GBASE-SR), 1310nm (for single-mode long-distance 10GBASE-LR), 1550nm (used for extended-range transmissions like 10GBASE-ER, ZR), and Dense Wavelength Division Multiplexing (DWDM) wavelengths, such as multiple fixed wavelengths within the 1530nm to 1560nm range.
Q: How to calculate link budget and loss for a 10G XFP optical module?
A: Link budget calculation involves considering factors such as transmit power, receiver sensitivity, fiber attenuation per kilometer, losses from connectors and splices, and any optical amplifier gain (if applicable). To establish a stable connection, it is essential that the transmit power, after subtracting all total losses, meets or exceeds the receiver sensitivity requirement.
|
Form Factor |
Data Rate |
Reach |
Wavelength |
Tx Power |
Rx Sens |
Overloaded optical power |
Connector |
|
XFP |
10G |
0.3 |
850 |
-6.5 ~-1 |
-11.1 |
-1 |
LC |
|
XFP |
10G |
10 |
1310 |
-6 ~-1 |
-14.4 |
-1 |
LC |
|
XFP |
10G |
40 |
1550 |
-1 ~4 |
-16 |
-1 |
LC |
|
XFP |
10G |
80 |
1550 |
0 ~4 |
-24 |
-7 |
LC |
|
XFP CWDM |
10G |
10 |
CWDM |
-6 ~0.5 |
-14.4 |
-1 |
LC |
|
XFP CWDM |
10G |
40 |
CWDM |
-2 ~3 |
-16 |
-1 |
LC |
|
XFP CWDM |
10G |
80 |
CWDM |
0 ~4 |
-24 |
-7 |
LC |
|
XFP DWDM |
10G |
40 |
DWDM(50G HZ) |
-2 ~3 |
-16 |
-1 |
LC |
|
XFP DWDM |
10G |
80 |
DWDM(50G HZ) |
0 ~4 |
-24 |
-7 |
LC |
|
XFP BIDI |
10G |
10 |
1270nm/1330nm |
-6 ~0.5 |
-14.4 |
-1 |
LC |
|
XFP BIDI |
10G |
40 |
1270nm/1330nm |
1 ~5 |
-15 |
-1 |
LC |
|
XFP BIDI |
10G |
60 |
1270nm/1330nm |
1 ~5 |
-20 |
-7 |
LC |
|
XFP BIDI |
10G |
80 |
1490nm/1550nm |
0 ~4 |
-23 |
-7 |
LC |
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