Datasheet

ManualsBrandsTriax ManualsLow Noise Block downconverters (LNB)023269

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3. Planning and installation instructions

Technical appendix

- continued from last page

If the frequency band contains only one half of the number

of channels (with constant channel spacing), it is possible to

raise the output level by 3 dB. If the conﬁguration lies

somewhere in between these extremes, it is possible to make

a rough interpolation.

c) Maximum output level for frequency

pre-compensation (line equalizer)

A frequency pre-compensation value for example of 10 dB

using a line equalizer permits driving the ampliﬁer approximately

2 dB higher. This value can also be treated as output reserve.

It should be noted, however, that the signal-to-interference

ratio at low frequencies will deteriorate by the amount of the

compensation attenuation. For extreme cases optimization by

a planning specialist is therefore required.

Permissible output level when cascading ampliﬁers

For cascades, reduce the output level by 3 dB each time you

double the number of cascaded ampliﬁers.

3.2.

Radiated interference power and

max. operating level

The radiated interference power of an antenna system

according to EN 50083-2 may not exceed:

• 20 dB(pW) = 39 dB(µV) at 75

W in the frequency range

30-950 MHz

• 43 dB(pW) = 62 dB(µV) at 75

W in the frequency range

950-2500 MHz

Thus, in conjunction with the shielding rate speciﬁed for the

equipment, the maximum operating level is as follows:

Maximum operating level =

• Shielding rate + 39 dB(µV)

(in the 30-950 MHz frequency range)

• Shielding rate + 62 dB(µV)

(in the 950-2500 MHz frequency range)

3.3. Shielding rate

The passive Triax components in this catalog meet as a

minimum the shielding rates required by EN 50083-2, class B:

• 5-470 MHz 75 dB min

• 470-950 MHz 65 dB min

• 950-3000 MHz 50 dB min

Class A components meet the increased requirements of

EN 50083-2

• 5-300 MHz 85 dB min

• 300-470 MHz 80 dB min

• 470-950 MHz 75 dB min

• 950-3000 MHz 55 dB min

For active units, the class A marking

also documents compliance with

EN 50083-2.

3.4. Signal-to-noise ratio, noise factor

The signal-to-noise ratio is the ratio of the used signal power

to the noise power expressed in decibels. The noise factor

deﬁnes by how much the signal-to noise ratio at the output of

an active unit (e. g. ampliﬁer) is less than the signal-to-noise

ratio at the input.

The thermal noise level on a 75 W resistor amounts

- for a bandwidth of 5 MHz (TV channel) and

- for a temperature of 293 K to approximately 2 dB(µV).

The signal-to-noise ratio of the received signal is the decisive

factor for the video quality of a TV set (see below).

The signal-to-noise ratio at the output of an individual ampli-

ﬁer (for ideal, i.e. noise-free input signal) can be determined as

follows:

Operating level at the output

– gain

– noise factor

– noise level

Example:

An ampliﬁer with the following output parameters:

94 dB(µV) operating level, 21 dB gain, and 7 dB noise factor.

The signal-to-noise ratio at the output of an

individual ampliﬁer would then be:

94 dBµV

– 21 dB

– 7 dB

– 2 dBµV

64 dB

3.5. Signal-to-noise ratio, noise,

picture quality

Signal-to-noise

ratio

Noise Picture quality

> 46 dB invisible very good

37 dB visible,

but not interfering

good

30 dB clearly visible,

interfering

unsatisfactory

< 26 dB dominant compared

to required signal

unusable