HF SDR Sample 30 KHz-35MHz

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HF SDR Sample 30 KHz-35MHz, Ham- CB Radio, Radio SDR

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HF SDR S/H Sample and Hold Receiver DR2E (Modification of DR2 with
new Audio Instrumental Amplifiers) from 30 KHz to 35 MHz-Make it Simple
as Possible with Outstanding Performances
Dipl. Ing . Tasić Siniša –Tasa YU1LM/QRP
All rights reserved, project is free for personal use only
I read a lot of comments related to my SDR designs. I must admit that some comments
were OK. One of these was that my post S/H detectors amplifiers are not optimal designs,
comments from Vytas LY3BG at SDR forum ref 3. If you read article from Gerald AC5OG you
will realized that for the HF even to 50 MHz receiver NF (noise figure) is not so important
performances like dynamic range. Of course it is very nice if it is possible to achieve all in one
design. Every design is some kind of compromise. It is very hard to fulfill all that in one design
especially if it a simple as mine. I was aware situation from the beginning. The overall feedback
at OP AMP also is against better NF and in all designs I have very strong negative feedback to
reduce OP AMP gain. This problem and how to solve it I will explain in the SDR RXs for VHF
and UHF bands. In short, solution is using of instrumental audio OP AMP connection. AC5OG
Gerald is using in his famous SDR1000 transceiver this way. Very good instrumental OP AMP is
laser trimmed for good CMRR like INA163….and it is not so cheap. I made this kind of
instrumental OP AMP with 3 OP AMP from NE5532 (for VHF and UHF bands I am using better
OP AMP very expensive “state of the art” AD797).
Practically I pasted DR2 input circuit S/H detector to the audio instrumental OP AMP
realization with NE5532 used in SDR AR1, AR2 VHF and UHF receivers with 6 wires. The
results ware as I had been expecting from this kind of circuit. The benefits are:
1. Better MDS , according to the my calculation must be 5 dB better. Practically I achieved 3
dB improvements results are very sensitive to the setting in SDR software.
2. Better CMRR(common mode ripple rejection- rejection in phase signals at OP AMP inputs),
30-40 dB was typical values for ordinary DR2 now it is in the case DR2E between 40-50 dB.
Positive side of this design has negative side too. Negative aspects are more hardware and
circuit is not simple as previously.
All other specifications are the same as they ware for DR2 only DR2E has 1-2 DR (dynamic
range) improvement and optimal virtual ground Vcc/2 at +6 V for OP AMPs to use full possible
output voltage swing 10Vp-p. We can obtain 1 dB in DR more with power supply VCC +15 V !!
I didn’t make this DR2E PCB yet but I tested this circuits and I don’t expecting any problem
because circuit DR2E with wire connections was working very well.
DR2E single side PCB dimensions 112 x 68 mm
I made great effort to make SDR projects and share them with all who are interesting for.
Anyway send me your comments positive or negative, results or photos of your realization
please.
VY 73/72 and GL in SDR homebrew Tasa YU1LM/QRP
References:
,
2.
3.
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5.
Skidan@mail.ints.net
T03DSP UR3IQO
6.
Leif LINARD
7.
SDR1000 Gerald AC5OG
8.
www.analog.com/en/prod/0,,770_843_AD9850,00.html
9. Recent Advances in Shortwave Receiver Design Dr. Ulrich Rohde QST Nov 1992 page 53
6. RF Design 6/1995
Alberto I2PHD SDRadio software ver 0.99
ik2czl@weaksignals.com <ik2czl@weaksignals.com>ik2czl@weaksignals.com
<
>Vittorio
2.
WINRAD
Duncan M0KGK
5.
www.g8jcf.dyndns.org
Peter G8JCF
6.
Leif LINARD
7.
SDR1000 Gerald AC5OG
8.
dl6iak.ba-karlsruhe.de
1.
Software LINK for SDR radio receiving and transmitting
1.
www.weaksignals.com
3.
www.ciaoradio.com
4.
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