![](data:image/png;base64,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)
Signal Condition
Selects a channel and checks the signal condition with indicators.
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A good Signal Strength is not an indication of suitable signal reception.
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Vertical lines show the maximum signal value of the selected channel.
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To change the channel
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Not valid in Analogue
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