20 interpreting qam constellation data – Alpha Technologies XP-EDH4 - Technical Manual User Manual

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745-419-B0-001 Rev. A (11/2013)

3.9.20 Interpreting QAM Constellation Data

The usefulness of the QAM constellation comes in the ability to recognize common shapes and

configurations within the map. Examples of the data shown in the table below are illustrated in the

figures that follow.

3.0

Configuration and Operation, continued

Table 3-10, Visual Cues for QAM Constellation Data

Shape

Focus

Impairment

Description

Individual cells

and entire QAM

constellation

Normal

Dots are centered in the individual QAM quadrants. The QAM

constellation has a uniform square shape.

Individual cells

Low CNR and/or

Low MER

Individual cells of QAM constellation contain a fuzzy and

diffused pattern.

Individual cells

Coherent

Interference

Individual cells of QAM constellation contain diffused hollow

circles or “doughnuts”. This indicates an interfering carrier and

shows the effect of not allowing the carrier to ever reach the

proper point in the target range.

Individual cells

Gaussian Noise

Individual cells contain a complete and fairly uniform smear up

to all decision boundaries, and is usually caused by improper

system setup, too many amplifiers in a cascade, damaged/

overheated hardware, and/or low power.

Entire QAM

constellation

Phase Noise

QAM constellation consists of smeared, concentric, circular

patterns.

Entire QAM

constellation

Gain Compression

QAM constellation looks uniformly square but the outside

corners appear to be “smashed” toward center of grid

(compression in the RF plant).

Entire QAM

constellation

I-Q Imbalance in

the Modulator

Overall appearance of QAM constellation is rectangular rather

than the desired square shape (square inequality).

Entire QAM

constellation

Quadrature

Distortion

Overall appearance of QAM constellation has a twisted or

skewed parallelogram shape.