Calculating Optical Link Loss in FTTX (FTTR) Networks: GPON FTTX and XGSPON FTTX Systems


Calculating Optical Link Loss in FTTX (FTTR) Networks: GPON FTTX and XGSPON FTTX Systems

Published: April 27, 2026 By: Rungrueang Huanraluek

Calculating Optical Link Loss in FTTX (FTTR) Networks: GPON FTTX and XGSPON FTTX Systems
 
     Calculating the total Optical Link Budget is a critical step in FTTx (FTTR) network design to ensure that the light signals transmitted from the OLT (Optical Line Terminal) to the ONT (Optical Network Terminal) or ONU (Optical Network Unit) have sufficient power levels for stable operation. In both GPON and XGSPON systems, the design must account for losses in every network component, including fiber optic cables, connectors, splices, and various passive devices, to ensure the total loss does not exceed the power budget supported by the system.
 
1. Comparison between GPON and XGSPON Systems

In FTTX (FTTR) networks, XGSPON systems offer higher potential than GPON in terms of speed and the ability to support a larger number of users, although equipment costs remain higher. GPON remains a suitable choice for cost-effectiveness and is sufficient for general usage. Therefore, selection should be based on traffic demand, distance, and network structure to serve as data for system calculation and design, such as Optical Link Budget, Split Ratio, and distance. The basic details of each system are as follows:

1.1 GPON System: Features a Downstream rate of 2.5 Gbps and an Upstream rate of 1.25 Gbps. It supports a maximum split ratio of 1:128 and a maximum transmission distance of approximately 60 kilometers. It is suitable for general FTTx projects requiring cost-efficiency and standard performance.

1.2 XGSPON System: Supports both Downstream and Upstream rates of 10 Gbps (Symmetric). It can support a maximum split ratio of up to 1:256 and has a maximum transmission distance of approximately 60 kilometers. It is ideal for high-bandwidth applications such as large hotels, hospitals, or future-proof networks.
 
ItemGPONXGSPON
Downstream Rate2.5 Gbps10 Gbps
Upstream Rate1.25 Gbps10 Gbps
Max Split Ratio1:1281:256
Max Transmission Distance60 km60 km
 
 

2. SFP Module Types, Transmit Power, and Receiving Capability

     Different SFP module classes determine the Transmit Power and Receiver Sensitivity of the system, which directly affects the Optical Link Budget calculation. Basic details for each system are as follows:

2.1 GPON System (Common Classes)

Includes Class B+, Class C+, and Class C++

- Wavelength: Downstream 1490 nm, Upstream 1310 nm
- Data Rate: Downstream 2.488 Gbps, Upstream 1.244 Gbps

2.2 XGSPON System (Common Classes)

Includes Class N1, Class N2, and Class E1

- Wavelength: Downstream 1577 nm, Upstream 1270 nm
- Data Rate: 10 Gbps Symmetric (Both Upstream and Downstream)

Note:

The selection of the SFP Module class should be appropriate for the distance, split ratio, and total loss of the system to ensure light signal levels remain within the range where equipment can operate with maximum efficiency and stability.
 

 

Module TypeTx Power (dBm)Rx Sensitivity (dBm)Max Link Budget (dB)
GPON B++1.5 ~ +5-2828
GPON C++3 ~ +7-3232
GPON C+++4.5 ~ +10-3333
XGSPON N1+2 ~ +5-2929
XGSPON N2+4 ~ +7-3031
XGSPON E1+6 ~ +9-3033

 

3. Optical Link Loss Calculation

 

     (1) Fiber Optic Loss: Based on the International Telecommunication Union ITU-T G.652 standard (G.652D Single-Mode Fiber). Generally, for system design, a loss value of 0.4 dB/km should be allowed for a safe Link Budget calculation. Cable loss varies by wavelength as follows:

 

Fiber Optic Loss Table (Unit: dB/km)
Fiber Type1310 nm1383 nm1490 nm1550 nm1625 nm
G.652.D0.350.310.250.220.24
G.6530.35--0.25-
G.654---0.170.19
G.6550.35--0.220.24
G.657.A10.350.310.250.220.24
G.657.A20.350.310.250.220.24
G.657.B20.35-0.250.220.24
G.657.B30.35-0.250.220.24

 

(2) Splitter Loss: Optical splitters are vital in PON networks, and loss increases as the split ratio increases. PLC Splitter loss values for calculation are as follows:

Splitter Loss Table
Split RatioTheoretical Loss (dB)Actual Loss Range (dB)
1:2~33.3 ~ 3.8
1:4~66.5 ~ 7.2
1:8~910.2 ~ 10.8
1:16~1213.5 ~ 14.5
1:32~1516.5 ~ 17.5
1:64~1819.5 ~ 21.0
1:128~2122.5 ~ 24.5

 

(3) Fiber Optic Connector Loss: Each connector results in an approximate loss of 0.2 ~ 0.5 dB. It is recommended to calculate at 0.5 dB per connector.


(4) Bend Loss: Bending fiber optics with a radius that is too small causes loss (Micro-bending Loss) ranging from 0.1 ~ 3 dB. Recommended bend radii must be greater than 30 mm (Standard fiber) or greater than 10 mm (Bend-insensitive fiber). It is recommended to calculate at 0.5 dB per route.

(5) Splice Loss: In practice, this value ranges from 0-0.1 dB per splice point. It is recommended to calculate at 0.1 dB for every splice point.

(6) Safety Margin Loss: Generally, a 3 dB safety margin is allowed for aging, temperature-related loss, and other environmental factors.

 

Examples of Optical Link Budget Calculation

EX.1 Calculate the total loss in a GPON FTTX network using a GPON C++ SFP Module and a 1:32 PLC Splitter. The fiber optic distance from the Server Room to the furthest Guest Room is 0.5 km (0.2 km Multi-Core and 0.3 km Drop Fiber), with 5 connectors and 3 splice points.

Total Budget Loss = Fiber Loss + Connectors Loss + Splices Loss + Splitter Loss + Bend loss + Safety margin

- Fiber Loss : Fiber length 0.5km x -0.4dB = -0.2dB
- Connectors Loss : 5 Points x -0.5dB = -2.5dB
- Splices Loss : 3 Points x -0.1dB = -0.3dB
- Splitter Loss : 1:32 x -17.5dB
- Bend loss : -0.5 dB/Route
- Safety margin: -3dB/Route
Total Budget Loss ≈ -24dB


GPON Class C++ SFP Module supports a Maximum Link Budget of approximately 33 dB.

From the calculation, the total network loss (Total Budget Loss) is approximately -24 dB, which is lower than the value supported by the GPON Class C++ SFP Module. Thus, there is sufficient margin, ensuring the system can operate stably and according to design standards.

 

EX.2 Calculate the total loss in a GPON FTTX network using a GPON C+ SFP Module and a 1:16 PLC Splitter. The fiber optic distance is 10 km, with 5 connectors and 7 splice points.

Total Budget Loss = Fiber Loss + Connectors Loss + Splices Loss + Splitter Loss + Bend loss + Safety margin

- Fiber Loss : Fiber length 10km x -0.4dB = -4dB
- Connectors Loss : 5 Points x -0.5dB = -2.5dB
- Splices Loss : 7 Points x -0.1dB = -0.7dB
- Splitter Loss : 1:16 x -14.5dB
- Bend loss : -0.5 dB/Route
- Safety margin: -3dB/Route
Total Budget Loss :-4dB -2.5dB -0.7dB -14.5dB -0.5 dB -3dB &

IPTV HOTEL TV XGSPON FTTX GPON FTTX FTTR FTTX JJSATs

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