This is normally done with a factory or field alignment step. See pages 47-49
of this document for more details:
http://www.tek.com/fact-sheet/fundamentals-mdo4000-series-mixed-domain-oscilloscope
On the Tektronix MDO4000 series instruments the delay is factory aligned
to within +/- 5 ns, but on
Reverting somewhat closer to the original topic:Attached 2 BJT circuit has
unity gain with a PN floor well below -180dBc/Hz (10MHz +13dBm input) with a
reverse isolation better than 60dB. 2nd Harmonic output is about -70dBc or so.4
of these could be driven from the outputs of a 4 way splitter to
On Sat, Dec 19, 2015 at 10:01:44PM +, Poul-Henning Kamp wrote:
>
> In message <5675ac3c.8020...@aei.ca>, Graham writes:
>
> >Would you be able to record what you want via the online web SDR at the
> >Twente University?
>
> Not really. That would only give a water-fall.
>
> What I
Jim,
It really depends on the complexity of your system.
For some you can analyze it or measure it with fairly simple tools.
For other systems, you need to calibrate it with a signal of known
timing and compare the known timing out of the same box with that of
your system. This is how GPS/GNS
On 12/20/15 12:17 PM, Bill Byrom wrote:
Yes, you can do that. My employer (Tektronix) makes RF Signal Analyzers
which sample at a high rate then use a DDC (Digital DownConverter based
on decimation and digital filtering) to produce a much smaller output
I/Q file at a smaller bandwidth and lower t
HI
One simple way to look at it is:
The conversion process is a filter. It has an impulse response and a group
delay. If it’s a digital downconversion
process, those things are very well known (no analog drift …). You can, if
needed, put in correction filters to
take care of any messy phase ar
Yes, you can do that. My employer (Tektronix) makes RF Signal Analyzers
which sample at a high rate then use a DDC (Digital DownConverter based
on decimation and digital filtering) to produce a much smaller output
I/Q file at a smaller bandwidth and lower time resolution. The
decimation and digital
Here's an interesting problem.
You have a fast sampler that is collecting samples off-the-air (e.g. the
end of LORAN) with a fairly wide bandwidth: say 10 Megasamples per second.
Those samples get post processed in a digital downconverter (not
necessarily in real time) to a narrower band repr
I once spent a very miserable but profitable weekend remaking a thin
ethernet network where the "installation expert" had stripped back 10B2
coax four inches and neatly separated core and shield, heatshrinked them
into pigtails and then soldered them into panel mount BNC sockets.
He was outraged
Had I known a trip to EU would have been in order. Going for a ham
radio vacation anyway. 8R satellite.
The radio (B210) runs with either of the I7 laptops that are here.
As you point out, making sure that the bus speed and devices are
compatible is key.
The B210 is a "development board" so to sp
In message <20151220042724.0f3d8406...@ip-64-139-1-69.sjc.megapath.net>, Hal
Murray writes:
>
>p...@phk.freebsd.dk said:
>> The main reason Ethernet went balanced was actually for fault isolation
>> (star-topology vs. bus) and signal quality (IT people were horrible at
>> "sharking" and c
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