Hello,

Have a Scantenna antenna (receive only) in attic.
It came with 75 ohm RG 6 coax, so presumably the output has a 75 ohm
impedance.
How this varies with freq. I have no idea.

Have a new scanner that says to use 50 ohm coax.

From old posts, the consensus seems to be that it doesn't matter if you use
50 or 75 ohm coax for
a run that I have of about 50 feet.

Do you folks agree with this ?

From a somewhat more rigorous and theoretical view, should the coax, even it
hardly matters, be matched to the antenna output impedance, or the input
impedance of the scanner ? Why ? (again, receive only)

Any thoughts on this would be most appreciated.

Thanks,
Bob

Robert11 wrote:
Hello,

Have a Scantenna antenna (receive only) in attic.
It came with 75 ohm RG 6 coax, so presumably the output has a 75 ohm
impedance.
How this varies with freq. I have no idea.

Have a new scanner that says to use 50 ohm coax.

From old posts, the consensus seems to be that it doesn't matter if you use
50 or 75 ohm coax for
a run that I have of about 50 feet.

Do you folks agree with this ?

From a somewhat more rigorous and theoretical view, should the coax, even it
hardly matters, be matched to the antenna output impedance, or the input
impedance of the scanner ? Why ? (again, receive only)

Any thoughts on this would be most appreciated.

Thanks,
Bob


The mismatch is insignificant. About 1.3 dB of loss or something.

In article ,
dave wrote:

Robert11 wrote:
Hello,

Have a Scantenna antenna (receive only) in attic.
It came with 75 ohm RG 6 coax, so presumably the output has a 75 ohm
impedance.
How this varies with freq. I have no idea.

Have a new scanner that says to use 50 ohm coax.

From old posts, the consensus seems to be that it doesn't matter if you use
50 or 75 ohm coax for
a run that I have of about 50 feet.

Do you folks agree with this ?

From a somewhat more rigorous and theoretical view, should the coax, even
it
hardly matters, be matched to the antenna output impedance, or the input
impedance of the scanner ? Why ? (again, receive only)

Any thoughts on this would be most appreciated.

Thanks,
Bob


The mismatch is insignificant. About 1.3 dB of loss or something.

That is a simplistic view.

--
Telamon
Ventura, California

On Mar 2, 12:39*pm, dave wrote:
- - Robert11 wrote:
- - Hello,
- -
- - Have a Scantenna antenna (receive only) in attic.
- - It came with 75 ohm RG 6 coax, so presumably the output
- - has a 75 ohm impedance.
- - How this varies with freq. I have no idea.

Neither Do I. {You are not Alone}

- - Have a new scanner that says to use 50 ohm coax.

Enjoy You New Scanner.

- - From old posts, the consensus seems to be that it
- - doesn't matter if you use 50 or 75 ohm coax for a run
- - that I have of about 50 feet.
- -
- - Do you folks agree with this ?

I Do. {See the Longer Answer Below}

- - From a somewhat more rigorous and theoretical view,
- - should the coax, even it hardly matters, be matched to
- - the antenna output impedance, or the input impedance
- - of the scanner ? *Why ? *(again, receive only)

It would be 'nice' to have a Signal Path where all the Parts
were the same Impedance : Antenna, Coax Cable and Radio.
-But- Practically Speaking Not Necessary when you are
simply talking 75 Ohm to 50 Ohm Components used for
Receive "Only" Scanner-Radio Listening.

- - Any thoughts on this would be most appreciated.
- -
- - Thanks,
- - Bob

Dave -wrote-
- The mismatch is insignificant. *
- About 1.3 dB of loss or something.

Robert 11,

What Dave says is the Practical Applied Truth : When it comes
to these 75 Ohm to 50 Ohm Mismatches between Antennas,
Coax Cables, Radios, etc for the Average Scanner Radio Listener.

To correct this Mismatch although insignificant; would require
the Insertion of some 'Device' either between the 75 Ohm
Antenna and the 50 Ohm Coax Cable feed-in-line.

This Device would have to be 'connected' between the 75
Ohm Antenna and the 50 Ohm Coax Cable feed-in-line.

Each of the Connections would have a Insertion 'Loss";
plus the Device itself may have some "Loss".

DEVICE = Matching Transformer / Matching Network / etc.

The Total of these "Losses" may be nearly equal to
the original Loss from the 75 Ohm to 50 Ohm 'direct
connection' Mismatch; or could even exceed it.

So the Practical Answer is to accept the small 1.3 dB
Loss due to the Mismatch and have fewer Connection
in the Signal Path from your Antenna to the Radio.

Why Fewer Connections ?
Over time the biggest problem with most Antenna
installations is the Connections in the Signal Path
from the Antenna to the Radio. Two more Connections
may cause more problems then living with the small
Signal Loss due to the Mismatch between the 75 Ohm
Antenna and 75 Ohm Coax Cable and the 50 Ohm
Input of the Radio.

Worry less about these small Mismatches and Losses;
and Learn more about making good Secure Antenna
and Coax Cable 'connections' that are Weather Proof
and will hold-up over years of service.

sorry for the miss-match-of-words )
hope this helps - iane ~ RHF {pomkia}

In article ,
"Robert11" wrote:

Hello,

Have a Scantenna antenna (receive only) in attic. It came with 75 ohm
RG 6 coax, so presumably the output has a 75 ohm impedance. How this
varies with freq. I have no idea.

Have a new scanner that says to use 50 ohm coax.

From old posts, the consensus seems to be that it doesn't matter if
you use 50 or 75 ohm coax for a run that I have of about 50 feet.

Do you folks agree with this ?

From a somewhat more rigorous and theoretical view, should the coax,
even it hardly matters, be matched to the antenna output impedance,
or the input impedance of the scanner ? Why ? (again, receive only)

Any thoughts on this would be most appreciated.


Chances are I will be the only person to answer you that it matters.
Everyone else is of the opinion that it doesn't. You will lose received
signal power with the mismatch and the argument always revolves around
how much the loss is important to your reception.

Since you have the coax use it and if the performance is satisfactory
then I would not worry about it. If the performance is not good enough
then go buy the right impedance coax and for scanners at higher
frequencies the most important factor is loss per foot. You want the
lowest loss per foot in the frequency range you want to receive on.

For short wave the loss per foot is not as significant being in the 3 to
30MHz range. Coax loss goes up per foot at higher frequencies.

--
Telamon
Ventura, California

On Mon, 03 Mar 2008 02:57:37 GMT, Telamon
wrote:

In article ,
"Robert11" wrote:

Chances are I will be the only person to answer you that it matters.
Everyone else is of the opinion that it doesn't. You will lose received
signal power with the mismatch and the argument always revolves around
how much the loss is important to your reception.

Since you have the coax use it and if the performance is satisfactory
then I would not worry about it. If the performance is not good enough
then go buy the right impedance coax and for scanners at higher
frequencies the most important factor is loss per foot. You want the
lowest loss per foot in the frequency range you want to receive on.

For short wave the loss per foot is not as significant being in the 3 to
30MHz range. Coax loss goes up per foot at higher frequencies.

Although you will theoretically see losses, the front-end gain of your
receiver is so high that it will compensate for this mismatch. The end
result will be unnoticeable unless the desired signal is at the noise
level (i.e. where the additional 1.3 dB would have an impact). As
noted, the losses will be more negligible on MF/HF versus VHF/UHF.

RG6 does offer some advantages over say RG58/U or RG8/8x cable in RX
on MF/HF frequencies: Good RG6 has a much better shield which will be
more efficient at blocking-off the pickup of unwanted interference.
Equivalent "50 Ohm" cables would be similar to the LMR-400, etc.

______________________

The Traveller
Carlsbad, California