Table of Contents
SFP
SFP en Gigabit Ethernet
- Wikipedia → Gigabit Ethernet
- Wikipedia → 10 Gigabit Ethernet
- Wikipedia → SFP Transceiver
- Wikipedia → DWDM / CWDM = Dense/Coarse Wavelength Division Multiplexing
CWDM in a picture:
CWDM
- Simple mux/demux in stand-alone model: Sigma SML-50-8180
- ITU-T G.694.2 CWDM grid using 20 nm wide channel spacing and implemented using only the higher part of the standard wavelength range (1470 through 1610 nm)
| 1470 | 1490 | 1510 | 1530 | 1550 | 1570 | 1590 | 1610 |
| Wavelength | Color |
|---|---|
| 1470 nm | |
| 1490 nm | |
| 1510 nm | |
| 1530 nm | |
| 1550 nm | |
| 1570 nm | |
| 1590 nm | |
| 1610 nm |
SFPs
Lightem
Type SFP: : Lightem CWS125SXX22D Spec : Gigabit Ethernet 1.25G SFP CWDM 1270-1610nm Output Power : -2..+3 dBm Sensivitiy : -24 dBm Saturation : -7 dBm Distance (?) : 22 dB Min. fiber loss @ -2 dBm Output : 5 dB Min. fiber loss @ +3 dBm Output : 10 dB Type SFP: : Lightem LCWS125SXX32D Spec : Gigabit Ethernet 1.25G SFP CWDM 1270-1610nm Output Power : -2..+3 dBm Sensivitiy : -32 dBm Saturation : -7 dBm Distance (?) : 32 dB Min. fiber loss @ -2 dBm Output : 5 dB Min. fiber loss @ +3 dBm Output : 10 dB [min fiber loss] = [max output-power] - [min saturation]
OEM
Cisco compatible SFP
Compatible:
- Skylane SFP85P55GE00100
Not compatible:
- Finisar FTRJ-8519-7D
- WTD RTXM191-551
- Picolight PL-XPL-VC-S13-11
- Fiberxon FTM-8012C-L
10 GBASE SFP+ / XFP
- 10GBase-CU (twinax bekabeling 10m) (“SFP+ Direct Attach”)
- 10GBase-CX4 (twinax bekabeling, 15m)
- 10GBase-T (UTP 100m)
- Cisco SFP-10G-kabel (SFP-kabel-SFP) 10GBASE-CU SFP+ Cable 3 Meter
Fiber
Singlemode fiber (SMF)
| G.651 | Multimode Fiber with a 50-Micron Core |
| G.652 | Standard Single Mode Fiber (SMF), Nondispersion-Shifted Fiber (NDSF) |
| G.652.C | Low Water Peak Nondispersion-Shifted Fiber |
| G.653 | Dispersion-Shifter Fiber (DSF) |
| G.654 | 1550-nm Loss-Minimized Fiber |
| G.655 | Non-Zero Dispersion Shifted Fiber (NZDSF) |
| G.656/G.655.E | Non-Zero Dispersion Shifted Fiber NZDSF |
| G.657 | SMF with improved bending performance compared to G.652 |
G.657.A is fully compliant with G.652, G.657.B is not necessarily compliant with G.652 but is capable of low values of macrobending losses at very low bend radii and is pre-dominantly intended for in-building use.
Direct Access Cable (DAC) = Lichtgewicht metaalvrije 'direct-buried' Access glasvezelkabel waarvan alle vezels in één buisje zijn aangebracht.
Cisco article
Fiber Connectors
PC, UPC, APC are short for:
- Physical Contact (PC)
- Ultra Physical Contact (UPC)
- Angled Physical Contact (APC)
They are actually the polish style of fiber optic ferrules.
Orientation duplex connector:
- when looking into front of sfp, with notch upwards:
- left = transmit
- right = receive
- NOTE: it is marked on the SFP with small arrows!
APC tip
- Fiber Connectors are available in two version (polishing of the tip):
- PC = Polished Contact (standard, color=blue)
- APC = Angle-Polished Contact (available in 8 and 9 degrees, 8 is more common, color=green)
- APC is only available for Singlemode fiber (SMF). for Multimode-Fiber (MMF) the tip is always PC (color=beige).
- APC is used in long-distance SMF networks to reduce reflections
Picture of SC-APC and LC-PC connector:
 |  |
Fiber Couplers
| Fiber Coupler SC-SC |  |
| Fiber Coupler SC-ST |  |
Fiber Patch Cords
Duplex Polarity
- Tyco-AMP whitepaper → Fiber Polarity Simplified
Polarity of SFP:
 | Note the arrows on the SFP-module:  |
Polarity of SFP-to-SFP link:
Polarity of Panel-to-Panel link:
Attenuators
- Central Point → MicroConnect Attenuator LC/PC SM with 10dB
- FOA attenuators → http://www.foanederland.com/details.aspx?CID=45
When shorter distances of single-mode fiber are used, it may be necessary to insert an inline optical attenuator in the link to avoid overloading the receiver. A 10-dB inline optical attenuator should be inserted between the fiber-optic cable plant and the receiving port on the SFP at each end of the link whenever the fiber-optic cable span loss is less than 8 dB.
