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User’s manual · TSF 310 CI

- 18 - TSF 310 CI version_en_2.0 FTE maximal

ATACHMENT I

Depending on the configured parameters we are going to obtain one particular channel capacity (output useful bit rate). In

order to make an estimation of this output bits rate, we have to take into account the following parameters:

Symbol duration (Ts)

For signals of 8 MHz

Mode 8K (6817 carrier) 4K (3409 carrier) 2K (1705 carrier)

Symbol duration 896 us 448 us 224 us

Guard Interval 1/4 1/8 1/4 1/8 1/4 1/8 1/16 1/32 1/4 1/8 1/16 1/32

Duration 224us 112us 56us 28us 112us 56us 28us 14us 56us 28us 14us 7us

For signals of 7 MHz

Mode 8K (6817 carrier) 4K (3409 carrier) 2K (1705 carrier)

Symbol duration 1024 us 512 us 256 us

Guard Interval 1/4 1/8 1/16 1/32 1/4 1/8 1/16 1/32 1/4 1/8 1/16 1/32

Duration 256us 128us 64us 32us 128us 64us 32us 16us 64us 32us 16us 8us

For signals of 6 MHz

Mode 8K (6817 carrier) 4K (3409 carrier) 2K (1705 carrier)

Symbol duration 1194,6 us 597.3 us 298,6 us

Guard Interval 1/4 1/8 1/16 1/32 1/4 1/8 1/16 1/32 1/4 1/8 1/16 1/32

Duration 298,7us 149,3us 74,7us 37,3us 149,3us 74,6us 37,3us 18,6us 74,6us 37,3us 18,6us 9,3us

For signals of 5 MHz

Modo 8K (6817 carrier) 4K (3409 carrier) 2K (1705 carrier)

Symbol duration 1433,6 us 597.3 us 298,6 us

Guard Interval 1/4 1/8 1/16 1/32 1/4 1/8 1/16 1/32 1/4 1/8 1/16 1/32

Duration 358,4us 179,2us 89,6us 44,8us 179,2us 89,6us 44,8us 22,4us 89,6us 44,8us 22,4us 11,2us

Modulation

Modulation QPSK 16 QAM 64 QAM

Number of bits per symbol 2 4 6

FFT Mode

FFT Mode 8K 4K 2K

Data carriers 6048 3024 1512

Total carriers 6817 3409 1705

Bits rate calculation (total)

LbfsTb

total

⋅⋅=

Where:

Fs = Symbols frequency (symbols/sec) fs=1/Ts

Ts = Symbol duration (Symbol Time + Guard Interval time)

b = Number of bits per symbol (depending on the modulation)

L = Number of data carriers (depending of FFT mode)

Bits rate calculation (useful)

SalomonedFECtotalutil

CodifCodifTbTb

−

⋅⋅=

FEC Cod. = FEC Codification (1/2, 2/3, 3/4, 5/6, 7/8)

Reed-Salomon Cod. = Codification made by the means of Reed Salomón algorithym (188/204)

Case study example

For example, in the case of a DVB-T transmission in Spain the configured parameters would be the following: 8k mode,

2/3 FEC, ¼ guard intervals, 64QAM constellation, for an 8 MHz channel and using the previous formula you will get the

following channel useful capacity:

MbpsTb

útil

905.19=

Note: As you select a configuration with a higher output channel capacity, the protection grade against

mistakes gets proportionally decreased.

Next it is shown the channel capacity for systems without hierarchy in all the cases of constellation, guard interval and

codification relation, for transmissions of 8MHz, 7MHz, 6MHz y 5MHz(DVB-H).

The useful capacity channel is identical for modes 2k, 4k(DVB-H) and 8k.