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Receive Preamp question
I am wanting to buy some receive preamps and am wondering if I'm looking at
it the correct way. Here are two examples from two different manufacturers, both for the same band. #1) .55dB NF, 16dB gain #2) .9dB NF, 20dB gain So, do you go for more gain or less NF? Since this is for weak signal VHF/UHF work, I would say go for less NF but you can tell me what you think. |
Receive Preamp question
Also, in this example, one preamp handles more power then the other, but I
don't care since I'm only going to be running 100 watts max. Both preamps have RF sensing. |
Receive Preamp question
"Rod Maupin" wrote in message . .. I am wanting to buy some receive preamps and am wondering if I'm looking at it the correct way. Here are two examples from two different manufacturers, both for the same band. #1) .55dB NF, 16dB gain #2) .9dB NF, 20dB gain So, do you go for more gain or less NF? Since this is for weak signal VHF/UHF work, I would say go for less NF but you can tell me what you think. Normally you go for the lowest NF. The NF is set by the first amplifier and it should have enough gain to overide the NF of the next stage. With too much gain you could overload the receiver, but unless you are in an are with lots of transmitters it is doubtful you will with 20 db of gain. The gain can be madeup anywhere in the system but the NF is set by the first stage and anything after that will not help if the receiver is anything much to start with. Unless you are in a quiet location and are mounting the preamps at the antenna I doubt that you will notice much differance in actual use. |
Receive Preamp question
Generally speaking, the BEST NOISE figure (factor,
ect. is what you want (best sensitivity), however, the Gain would be a consideration, IF you had excessive coax loss. (in this case, in excess of 16 dB, which would be quite doubtful. The gain of a vhf (or any amp, for that matter), only needs to exceed your coax (and your front end I.E. Reciever's Noise figure, so as to allow the preamps noise figure to take precidence (establish your floor sensitivity) I hope I stated that correctly. And, even then, as long as THAT noise figure is below the cold sky noise (from other sources), then the cold sky noise (about 1.8 dB on 2 meters) is the limiting factor on your sensitivity, before figureing the SELECTIVITY of your reciever (half the bandwidth, gain 6 dB, half again, now gain another 6dB). Probably as clear as mud, but the best I can describe it-- Jim -NN7K Rod Maupin wrote: I am wanting to buy some receive preamps and am wondering if I'm looking at it the correct way. Here are two examples from two different manufacturers, both for the same band. #1) .55dB NF, 16dB gain #2) .9dB NF, 20dB gain So, do you go for more gain or less NF? Since this is for weak signal VHF/UHF work, I would say go for less NF but you can tell me what you think. |
Receive Preamp question
Unless you are in a quiet location and are mounting the preamps at the
antenna I doubt that you will notice much differance in actual use. Actually, I live in the country and am mounting the preamps close to the antennas (mast mounting). |
Receive Preamp question
On Sun, 17 Sep 2006 18:31:00 -0700, "Rod Maupin"
wrote: I am wanting to buy some receive preamps and am wondering if I'm looking at it the correct way. Here are two examples from two different manufacturers, both for the same band. #1) .55dB NF, 16dB gain #2) .9dB NF, 20dB gain So, do you go for more gain or less NF? Since this is for weak signal VHF/UHF work, I would say go for less NF but you can tell me what you think. Rod, The context in which you intend to employ the preamp is needed to accurately answer your question. The industry uses a single metric for fully capture the receive performance of the entire station, it is the Gain to Noise Temperature ratio, written as G/T. S/N is directly related to G/T, for every one dB improvement in G/T, you get exactly 1dB improvement in G/T. Calculating G/T brings to book the NF of your "receiver", transmission line etc losses, feed system losses, the gain and noise of your preamp, and the external noise. I have just explored options for improving my 144MHz station after polite on-air advice suggested I needed better feedline and a preamp. In fact, they are quite costly for little improvement, compared to stacking another beam. See http://www.vk1od.net/gt/144.htm for the write up and links to a description of the G/T method and calculation tool. A further aspect to keep in mind is that it is easy to build a cheap preamp that exhibits very low NF and good gain in a shielded room. If the preamp has poor IMD, it might actually degrade the system performance depending on your own RF environment. Minimising noise from IMD means better active devices and better front end selectivity, both of which are high cost items. So, for a start, read the page, follow the link to the second article, download the spreadsheet and start populating the model with your own scenario. I would encourage a "try before you buy" evaluation of a preamp to see what it does in your situation, the IMD noise cannot be simply implied from published specs. Owen -- |
Receive Preamp question
"Owen Duffy" wrote in message ... On Sun, 17 Sep 2006 18:31:00 -0700, "Rod Maupin" wrote: I am wanting to buy some receive preamps and am wondering if I'm looking at it the correct way. Here are two examples from two different manufacturers, both for the same band. #1) .55dB NF, 16dB gain #2) .9dB NF, 20dB gain So, do you go for more gain or less NF? Since this is for weak signal VHF/UHF work, I would say go for less NF but you can tell me what you think. Rod, The context in which you intend to employ the preamp is needed to accurately answer your question. The industry uses a single metric for fully capture the receive performance of the entire station, it is the Gain to Noise Temperature ratio, written as G/T. S/N is directly related to G/T, for every one dB improvement in G/T, you get exactly 1dB improvement in G/T. Calculating G/T brings to book the NF of your "receiver", transmission line etc losses, feed system losses, the gain and noise of your preamp, and the external noise. I have just explored options for improving my 144MHz station after polite on-air advice suggested I needed better feedline and a preamp. In fact, they are quite costly for little improvement, compared to stacking another beam. See http://www.vk1od.net/gt/144.htm for the write up and links to a description of the G/T method and calculation tool. A further aspect to keep in mind is that it is easy to build a cheap preamp that exhibits very low NF and good gain in a shielded room. If the preamp has poor IMD, it might actually degrade the system performance depending on your own RF environment. Minimising noise from IMD means better active devices and better front end selectivity, both of which are high cost items. So, for a start, read the page, follow the link to the second article, download the spreadsheet and start populating the model with your own scenario. I would encourage a "try before you buy" evaluation of a preamp to see what it does in your situation, the IMD noise cannot be simply implied from published specs. Owen -- |
Receive Preamp question
Interesting post. I will look at that link you gave.
Thanks, Rod KI7CQ |
Receive Preamp question
On Mon, 18 Sep 2006 03:27:46 GMT, Owen Duffy wrote:
The industry uses a single metric for fully capture the receive performance of the entire station, it is the Gain to Noise Temperature ratio, written as G/T. S/N is directly related to G/T, for every one dB improvement in G/T, you get exactly 1dB improvement in G/T. Prophetic! Should have read: The industry uses a single metric to fully capture the receive performance of the entire station, it is the Gain to Noise Temperature ratio, written as G/T. S/N is directly related to G/T, for every one dB improvement in G/T, you get exactly 1dB improvement in S/N. As you know from HF, changing the NF of your receiver (by swithing in the attenuator or turning the preamp off) often does not change the S/N ratio of signals on the lower bands where ambient noise dominates system performance. G/T gives you a method of predicting what S/N improvment you will achieve with each of your proposed preamps (model each at top or mast of at the tx, change out the coax for better stuff etc)... and when you assess the cost of the improvement, you might have different thoughts about what is "best" for you. Owen -- |
Receive Preamp question
On Mon, 18 Sep 2006 03:27:46 GMT, Owen Duffy wrote:
So, for a start, read the page, follow the link to the second article, download the spreadsheet and start populating the model with your own scenario. The link to the second article wasn't on the page (yet)... here it is. http://www.vk1od.net/gt/index.htm It contains a link to a spreadsheet for building up your own G/T model of your station. Owen -- |
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