Top band DX-ing is real ham radio challenge. 160m is also referred as the "Gentleman's band"...
160 meters - DX-ing on the Edge...

Prosinec 2007


30. prosince 2007 v 0:49 | Petr, OK1RP |  Home
Hi all,
the contest is ongoing but its not bad to show all details of the rules i guess...

1. Contest period: 1500Z December 29th to 1500Z December 30th, 2007.
Operate for a maximum of 14 hours. Off times are 30 minutes minimum
and a maximum of four off periods are permitted.

A separate warm-up even will be held on October 20th/21st with the
same time period and entry categories.

2. Bands and mode: 160 meters CW only.

3. Categories: Single operator or multi-operator. Remote or Cluster
spotting shall not be used. All transmitting and receiving antennas
used must be within 100 km of each other.

4. Exchange: Four character grid square (i.e. CN85).

5. QSO Points: The number of QSO points for each contact depends on the
distance between the two stations. This is computed by taking the
distance between the centers of the two grid squares. Count a minimum
of one point per QSO and an additional point for every 500 kilometers
distance. For example, a QSO with a station 1750 kilometers away will
count for 4 QSO points. No additional distance for long path is allowed.

QSO Points are multiplied by 2X if you work a low power station and 4X
for working a QRP station. This is done based upon received logs and
is computed automatically during the log checking process.

Do not worry if your logging software does not compute the QSO points.
Our automated log checking software does this.

6. Score: Final score equals the total number of QSO points. There is
no multiplier for different grids worked. Stations running 5 to 100
watts output multiply their score by 2. Stations running less
than 5 watts multiply their score by 4. Scores will be grouped by

7. Reporting: Your log can be sent via the internet to TBDC@CONTESTING.COM
using the Cabrillo format before January 31st, 2007. Paper entries can
be mailed to BARC 15125 SE Bartell Rd; Boring, OR 97009. If possible,
please provide an electronic copy of your log. You can use the tool
INSTEW.EXE to generate a Cabrillo log from your paper log. It can be
found at

Logs for the warm-up event are due by November 20th.

8. Plaques will be awarded for categories we have sponsors for. To
volunteer to sponsor a plaque, contact Lew Sayre, W7EW at
A list of the plaques sponsored can be found on the web at

There are no plaques or other awards for the warm-up event.

9. Results are published on the web in September or October. Look for an
announcement on the topband and contest reflectors. Warm-up results will
be published before the real event in December.
Good luck in the contest and maybe see You on the air...
73, Petr OK1RP

TT Orion 565 on 160m & optimal setting - part II. by W4PA / KF6DX

26. prosince 2007 v 0:04 | Petr, OK1RP |  Operation topics
Setting up the Orion for weak signal low band DXing
("single signal DXing")
With recent transceivers, a operator typically would set CW for a low or comfortable offset, select a narrow bandwidth filter (like 250 Hz), turn AGC to either "fast" or "off", use some setting for DSP noise reduction and start listening for weak signals. Which is fine - except that 'typical' settings like this used for other radiossimply won't use Orion to its maximum capabilities.
You can skip the entire document if you're merely looking for optimum initial settings for maximizing receiver performance. If you'd like a more detailed explanation of how these all work and interact, read on.
Set AGC to programmable and use these settings for prog AGC, NR, and Xtal Filter:
Threshold : 0.5 uV
Hang : 0.00
Decay : 40 - 60 dB/S
NR : 3 or OFF
Roofing XTAL : 1 kHz
An important point to ponder: There is no one setting for RX combination (defined as roofing filter, DSP bandwidth filter, DSP NR, and AGC together) that is the correct one for Orion. There are good places to start - and by understanding how the operation of the high dynamic range receiver in Orion is different from other transceivers will set you on the correct path toward optimum use.
Let's think this through logically. Band conditions always vary, noise always varies, signals always vary. If you set a transceiver for one optimal setting to use it for variable conditions, would it seem logical that the operator would be using the transceiver to its optimum capability each and every time? No.
Refer back to the above definition of the use of a crystal roofing filter. The roofing filter is used for keeping strong closeby signals from compromising receiver performance. Listening to a weak signal on a quiet band does not meet the definition of need for a tight roofing filter. On a band where few signals are present other than a desired target weak signal, only a wide roofing filter would be necessary. Putting in the 250 Hz roofing filter when listening to a single weak signal on the low bands gains nothing additional. In fact, it could hurt your ability to hear a noise floor level weak signal. Why? Among other reasons, all narrow bandwidth filters suffer from insertion loss - and in the Orion, like other transceivers have for many years, we use an amplifier to compensate for crystal filter loss. A 250-Hz filter is going to have slightly more loss than a 500-Hz filter. Both of these narrow filters have more loss than the 1 kHz roofing filter. The loss, after preamp compensation, is about 2 dB. No loud signals nearby = no need for a tight roofing filter. Regardless of DSP bandpass filter setting, we'd recommend using a wider roofing filter as acceptable for weak signal DXing. The DSP bandpass filtering does not vary in gain down to the minimum setting of 100 Hz. Therefore, if there is no offending signal within 1 kHz, setting the roofing filter at 1 kHz and narrowing the DSP bandwidth to any desired value is by far the best setup for Orion for single signal DXing.
Of course, if you have a pileup 1 kHz away, perhaps a tighter roofing filter is warranted to keep those loud callers from compromising close-in performance. That's fine - but make sure that the crystal roofing filters are centered (see bottom of page).
DSP noise reduction in the Orion interacts somewhat with the digital AGC system. Here is why: when turning on the noise reduction, without changing digital AGC, the receiver will get very quiet, very quickly. This is not the desired effect of noise reduction! The desired effect is to identify what is signal and what is noise and improve the ratio between the two, rather than making the whole receiver quieter, signals and noise. When DSP NR is selected, digital AGC artificially reduces the threshold setting of the digital AGC - and you will notice that the overall noise level can increase - but signal-to-noise ratio improves and that is the ultimate goal of the NR system.
In practical terms, how does it work? There are 9 different settings, and each of the 9 are used to determine only how aggressively (quickly) the NR adapts and identifies what is signal and what is noise. Here is the rub (and it's logical): with weak signals, it is harder for the DSP NR to determine what is noise and what is signal. When turning DSP NR on with a setting of "1" with a signal that is very weak, it's going to take a very long time for the algorithm to figure out what is signal and what is noise. For a somewhat louder signal (20 dB or more above the ambient noise level, still fairly weak) - a setting of "1" will adapt very fast! What is needed for weak signals is more aggression. By starting the NR at "3" or "4", the NR will more quickly adapt to what is signal and what is noise for a weak signal. Once the NR has adapted, for the same signal, no change in NR will be made when adjusting the value! If you turn the DSP NR on, and just cycle through the values looking for 'best' - nothing will happen. Because the DSP NR builds a bandpass filter to automatically reduce noise, it produces the same effect as manually selecting a very narrow DSP passband filter.
Perhaps nothing is more important than AGC setting, and for single signal weak signal DXing purposes the programmable AGC value is probably the only setting that the operator should consider using. Put the AGC hang at 0.00 - turn it off. Why? Because with AGC hang, the AGC will grab onto the most recent noise peak and will adjust gain to it for the hang period, then decay will begin - this is not good if you're trying to listen to a signal at the noise floor and band noise is varying on top of the signal! The threshold value in the AGC system acts like an IF gain control for the receiver chain - turn the value low (like to .37 uV) and the receiver gain comes up, as do the signal levels. The crucial part is adjusting decay and threshold. Decay is used to determine how fast the IF gain increases in the absence of a signal above the threshold value. For a conventional setting like 'fast' or 'off', either on Orion or any other transceiver, the AGC can actually clip both a weak signal and the noise! Want an example? Tune to a point on the band where there is no signal, only band noise. Set AGC hang at 0.00, threshold at .37 uV, and then start decay rate at 5 dB/s. Turn it up to 1000 dB/s (fastest setting). Hear the background noise change? That's AGC clipping the noise at the fast decay setting.
If there's a weak signal in there at that level - you guessed it, the signal gets clipped too.
How to use the programmable AGC for optimum performance for weak signal DXing: There are two possibilities. For each, set hang value at 0.00. The first example we'll call "quick decay, variable gain" Set the decay to 60 dB/s (which is still fairly fast) and the threshold at .37 uV while listening to a weak signal. As you increase the threshold to higher values, it is possible that the weak signal will come out of the noise as the system gain decreases and the AGC no longer clips the weak signal and the noise! The other method is "low threshold, varied decay" to set threshold at a low or the lowest value for maximum IF gain, and then use the decay control to adjust, starting from the slowest setting of 5 dB/s and working upward. As decay goes faster, it introduces clipping. When listening to a weak signal with threshold low, advance the decay until the point clipping starts (audible change in the noise component and/or loss of copy of chopping of the weak signal) - ideally, you want to adjust this to just before the clipping point for maximum copy of the weak signal.
So, all that being said, how about a "set-it-once-and-leave-it" value for programmable AGC for weak signal DXing?
As noted in the graph at the top, set AGC hang at 0.00, decay at 40-60 dB/s, and the threshold at .5 uV. This ought to provide a good enough combination of settings to allow just about anything that can be audible to be detected by the radio (and likely copied as well) and allow for plenty of gain. If you need 'just a little more', you can go in and change the AGC parameters for a given situation as described above.
While you can have an optimal starting point for programmable AGC - every signal and every noise situation is unique! This is precisely what makes this system so advantageous over traditional settings of 'fast' and 'off'.
Consider the settings we have suggested for single signal DXing: wider roofing filter, NR (if desired) at a start value of "3" or higher, use of programmable AGC, DSP bandpass filter set at any value desired. Now consider what we started with above: conventional settings on a past transceiver of 250 Hz crystal filter, AGC fast or off, DSP NR on. Let's say on Orion, you've put in the 250 Hz roofing filter, put the DSP BW at 100 Hz, turned the AGC to fast or off, put the DSP NR on "1", and then went to copy a single weak CW signal on the low bands. Knowing what you now know, what is the likely result? No chance that desired signal is going to be as copyable (or copyable at all!) as it would be with setting the transceiver to take it to its full capabilities.
To summarize for weak signal, single-signal DXing: Use the programmable AGC settings in the table above, adjusting if needed for each situation to enhance weak signal copy. Use the narrow roofing filters only if a loud signal is close enough to warrant it. Gain does not vary for DSP bandpass filters - use any value down to 100 Hz you feel comfortable with. For weak CW signals, either leave NR off or start NR at a setting of "3" or "4" for quicker adaptation. Make sure the narrow roofing filters, if you choose to use them, are centered using the C.F. controls in the menu.
Make sure the signal you are listening to is zero beat at the CW offset you have selected.
For more information please visit
73, Petr OK1RP

Merry Christmas to all Topbanders !

23. prosince 2007 v 21:52 | Petr, OK1RP |  Home
Christmas event coming quickly...
(in European countries on 24th Dec) so I hope that You have everything arranged...
and ready for Santa Claus (Noel, Jezisek etc.) visiting at Your home as he is on the way already...
I would like to wish the MERRY and HAPPY CHRISTMAS, healthy and relax time with family and if You was quite nice this year...
then even some xmas gifts for You !
Best regards,
73 and DX on Top band,
Petr, OK1RP