Hello all, does anyone know of a way to attach BNC connectors to RG 8 size 10.3 mm dia cables. With out contributing to cable losses on the VHF High band.
Thanks nick
BNC on RG-8/U size cable
Moderator: Queue Moderator
Use the correct connector?
try amphenol 6775
http://www.amphenolrf.com/pdf/109.pdf
http://www.amphenolrf.com/search_part.asp
What are you using it on? If it's a portable, you really do want a short pigtail of something more flexible.. the stress of the RG8 tends to flex the connector too much, leading to broken joints if the connector is mounted directly to the pc board without a internal jumper.
try amphenol 6775
http://www.amphenolrf.com/pdf/109.pdf
http://www.amphenolrf.com/search_part.asp
What are you using it on? If it's a portable, you really do want a short pigtail of something more flexible.. the stress of the RG8 tends to flex the connector too much, leading to broken joints if the connector is mounted directly to the pc board without a internal jumper.
Hi:
Although one can purchase King Connectors
that will mate with RG-8 to BNC, be advised
a more simple solution would be to use a
Type C ( N ) or suitiable connector, and then
use RG-223 Jumper to to source.
The loss is very little @ VHF Freqs unless you are dealing in micro-watts.
RG-223 is very similar to RG-58, and is double shielded and easy to work with. A
large piece of transmission line terminating
into a BNC plug directly could place undue
stress on the Jack its plugged into.
============================================
Just saw your post....What I would do is simply use a run of 1/2" Celwave ( or 7/8 )
if you can afford it, and then use a small
jumper from the end of the 1/2" line to your
repeater.
A good piece of transmission line, and a good
antenna is a valuable asset to a repeater.
Monty
Monty
<font size=-1>[ This Message was edited by: [email protected] on 2002-03-03 05:38 ]</font>
Although one can purchase King Connectors
that will mate with RG-8 to BNC, be advised
a more simple solution would be to use a
Type C ( N ) or suitiable connector, and then
use RG-223 Jumper to to source.
The loss is very little @ VHF Freqs unless you are dealing in micro-watts.
RG-223 is very similar to RG-58, and is double shielded and easy to work with. A
large piece of transmission line terminating
into a BNC plug directly could place undue
stress on the Jack its plugged into.
============================================
Just saw your post....What I would do is simply use a run of 1/2" Celwave ( or 7/8 )
if you can afford it, and then use a small
jumper from the end of the 1/2" line to your
repeater.
A good piece of transmission line, and a good
antenna is a valuable asset to a repeater.
Monty
Monty
<font size=-1>[ This Message was edited by: [email protected] on 2002-03-03 05:38 ]</font>
Unless i completely misread your application.. you are trying to access a repeater 20kms (12.5 miles) away.. and your antenna is 80 feet from the radio.. so i'm guessing the antenna is likely 40 feet above ground.
For this application I wouldn't be that worried about line losses, you have more than enough ERP left with even RG58.. let alone 1/2" heliax.
I'd go with something like LMR240 for a couple reasons:
- Ease of installation (small size 1/4" diameter)
- Mini UHF connector required for the CDM radio is available
- This cable is light and flexible so your CDM radio will sit nicely on your desk with having to wrestle with heavier cable
So lets calculate the ERP.
LMR240 3 db/100 feet = 2.4 db for 80Ft
25W = 14dbw
less 2.4
less 0.5 (connectors)
plus 0.0 (unity gain antenna)
-----
11.1 = 12.9 watts
Industry Canada here doesn't like to see more than 10watts ERP on a repeater access station, so I'll still have to turn back the Tx power a bit
Just my 2 cents
Bruce
For this application I wouldn't be that worried about line losses, you have more than enough ERP left with even RG58.. let alone 1/2" heliax.
I'd go with something like LMR240 for a couple reasons:
- Ease of installation (small size 1/4" diameter)
- Mini UHF connector required for the CDM radio is available
- This cable is light and flexible so your CDM radio will sit nicely on your desk with having to wrestle with heavier cable
So lets calculate the ERP.
LMR240 3 db/100 feet = 2.4 db for 80Ft
25W = 14dbw
less 2.4
less 0.5 (connectors)
plus 0.0 (unity gain antenna)
-----
11.1 = 12.9 watts
Industry Canada here doesn't like to see more than 10watts ERP on a repeater access station, so I'll still have to turn back the Tx power a bit
Just my 2 cents
Bruce