Difference between pages "AudioAmp380" and "QRP Labs High Performance SDR Receiver"

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[[FILE:AudioAmp380-3D.png]]
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[[file:QRP-Labs_P1956-720px.jpg]]
  
== Design ==
+
== Features ==
  
* Pre-amp plus power amp
+
* Three modules
* 50 Ohm input impedance
+
** [http://qrp-labs.com/receiver QRP Labs High Performance Receiver Module]
* External mount gain potentiometer
+
*** Direct Conversion Receiver
** Gain potentiometer on preamp
+
*** Uses a Quadrature Sampling Detector (QSD), also known as a Tayloe Detector
* [https://www.ti.com/lit/ds/symlink/lm380.pdf LM380] 2.5W Audio Power Amplifier
+
*** [https://www.onsemi.com/pdf/datasheet/fst3253-d.pdf FST3253] Mixer is arranged as a double-balanced mixer for maximum performance
** Wide Supply Voltage Range: 10V-22V
+
*** Circuit to mute receiver during transmit
** Low Quiescent Power Drain: 0.13W (VS= 18V)
+
*** [https://www.ti.com/lit/ds/symlink/lm4562.pdf Low noise LM4562 op-amps] are used in instrumentation amplifier configuration to provide excellent common mode noise rejection
** Voltage Gain Fixed at 50 (34 dB)
+
*** The audio output of the module is isolated using two 600:600-ohm transformers to reduce or eliminate the ground loop problems which can easily occur in SDR systems
** High Peak Current Capability: 1.3A
+
*** The module is designed to directly drive a stereo input sound-card or with a polyphase filter card
** Input Referenced to GND
+
*** Receiver board has a socket for the standard QRP Labs Band Pass Filter kit which can be routed to an external bandpass filter switch card
** High Input Impedance: 150kΩ
+
*** The receiver requires a local oscillator (LO) input at 4x the receive frequency
** Low Distortion
+
*** [http://qrp-labs.com/images/receiver/receiver2.pdf Receiver Build instructions]
** Quiescent Output Voltage is at One-Half of the Supply Voltage
+
** [[RF Band Pass Filters|QRP Labs Band Pass Filter]]
* [https://www.ti.com/lit/ds/symlink/ne5534.pdf NE5534] Pre-amplifier
+
*** Can be used with a [https://qrp-labs.com/ultimatelpf.html Switched Bandpass filter board] for multiband operation
** Low-Noise Operational Amplifiers
+
*** [http://qrp-labs.com/bpfkit.html 10/15/20/40/80M QRP Labs Band Pass Filter Kits]
** Equivalent Input Noise Voltage 3.5 nV/√Hz Typ
+
*** [https://qrp-labs.com/images/bpfkit/bpf2.pdf Band Pass Filter Build instructions]
** Unity-Gain Bandwidth 10 MHz Typ
+
** [https://qrp-labs.com/polyphase QRP Labs Polyphase filter]
** Common-Mode Rejection Ratio 100 dB Typ
+
*** Polyphase network plug-in module kit cancels the unwanted sideband and produces a single sideband (SSB) output
** Wide Supply-Voltage Range ±3 V to ±20 V
+
*** [http://qrp-labs.com/images/polyphase/polyphase2a.pdf Polyphase Filter Build instructions]
** Used as single supply
+
* Band Pass Filter and Polyphase filter mount on Receiver Module
* Fits into 80x50x20mm extruded aluminum enclosure
+
* Current draw - measured total 70 mA (5V regulator
`
+
* The receiver module is sized 80 x 37mm
  
== Rev 2 Schematic ==
+
=== Build / Assembly ===
  
[[file:AudioAmp380-Schematic.png]]
+
* Power supply + 12V in
 +
** Distribute 12V using [[TinyGrid85]] card with caps
 +
** Needs 5V supply
 +
*** Partly populated [[TinyGrid85]] card with caps and 5V regulator (no ATTiny85 chip)
 +
** Opamps can be powered from 5V or 12-14V (for higher dynamic range)
 +
* [[AudioAmp386|Audio Amplifier]]
 +
* The receiver requires a local oscillator (LO) input at 4x the receive frequency
 +
** Using [[VFO-003]] with [https://github.com/land-boards/lb-Arduino-Code/tree/master/LBCards/VFO-003_4X 4x output software option]
 +
** [https://github.com/etherkit/Si5351Arduino/tree/master/src Si5351 Driver]
  
== Rev 1 Rework ==
+
== Silkscreen / Pinout ==
  
* Issues
+
[[file:IQ_RX_PCB.PNG]]
** Front end opamp has + and - reversed
 
** Also hooked up the feedback to the wrong input
 
* 5 Cuts
 
** 4 on front
 
** 1 on back
 
* 5 Jumpers on back
 
  
[[file:U2-2_3_Rev1_Rev2_Cuts_Jumpers.png]]
+
=== Pins ===
  
== Videos ==
+
* IQ pins
 +
* I, GND, Q outputs
 +
* Power pins
 +
* GND, +5V, +5V or +12V to +14V
 +
* Tx Mute Input
 +
** 5V mutes inputs
 +
* LO input
 +
** 3.3V from Si5351A oscillators
 +
* IF input
 +
** From external Bandpass Filter Switch
  
[[file:ZL2CTM_Schematic.PNG]]
+
== Receiver Module ==
  
<video type="youtube">GlT0HbvcmrM</video>
+
[[file:QRP-Labs_Receiver-Base_P1969-720px.jpg]]
  
== Assembly Sheet ==
+
== Polyphase Module ==
  
[[LM380 Rev 1 Assembly Sheet]]
+
*  Important to observe part outlines
 +
** Adjacent resistors can be put in "sideways"
 +
 
 +
[[file:QRP-Labs_Polyphase-Filter_P1966-500px.jpg]] [[file:Polyphase-pcb.PNG]]
 +
 
 +
[[file:Polyphase-pcb-2.png]]
 +
 
 +
[[file:Polyphase-Schematic.PNG]]
 +
 
 +
* USB/LSB select jumpers
 +
** Set to USB in the above picture
 +
 
 +
[[file:Polyphase_LSB-USB-Jumpers.PNG]]
 +
 
 +
== Bandpass Module ==
 +
 
 +
* 20M - 14 MHz Filter
 +
 
 +
[[file:QRP-Labs_BandPass-Filter_P1963-720px.jpg]]
 +
 
 +
[[file:Bandpass_Filter_Schematic.PNG]]
 +
 
 +
* NanoVNA
 +
** 12-16 MHz
 +
 
 +
[[FILE:14MHz_12-16MHz_Band_Pass_Filter-2.png]]
 +
 
 +
* Data
 +
 
 +
[[FILE:14MHz_12-16MHz_Band_Pass_Filter-Data.png]]
 +
 
 +
[[FILE:  14MHz_12-16MHz_Band_Pass_Filter-Analysis.png]]
 +
 
 +
== Build Issues ==
 +
 
 +
* Transformers don't fit well and crowd parts around them
 +
* QRP Labs polyphase module pics are for older revision card
 +
* One of the two variable caps on the Bandpass filter was very hard to turn even after the first turn
 +
 
 +
== Reference Documents ==
 +
 
 +
* [https://wparc.us/presentations/SDR-2-19-2013/Tayloe_mixer_x3a.pdf Ultra Low Noise, High Performance, Zero IF Quadrature Product Detector and Preamplifier]
 +
* [http://antennoloog.nl/data/documents/Understanding_and_designing_Polyphase_networks_V4.0.pdf Understanding and Designing Sequence Asymmetric Polyphase Networks]
 +
* [https://www.robkalmeijer.nl/techniek/electronica/radiotechniek/hambladen/qst/1991/12/page29/ The double-tuned Circuit: An experimenter's tutorial]
 +
* [http://hanssummers.com/polyphase 40/80m CW/SSB receiver]
 +
* [http://hanssummers.com/images/stories/polyphase/polyphase.pdf Experimental Polyphase Receiver]
 +
* [http://www.arrl.org/files/file/Technology/tis/info/pdf/030304qex020.pdf A Software Defined Radio for the Masses]
 +
* [http://norcalqrp.org/files/AustinNC2030Presentation.pdf Very High Performance Image Rejecting Direct Conversion Receivers] - NC2030 Radio

Revision as of 00:02, 22 November 2021

QRP-Labs P1956-720px.jpg

Features

Build / Assembly

Silkscreen / Pinout

IQ RX PCB.PNG

Pins

  • IQ pins
  • I, GND, Q outputs
  • Power pins
  • GND, +5V, +5V or +12V to +14V
  • Tx Mute Input
    • 5V mutes inputs
  • LO input
    • 3.3V from Si5351A oscillators
  • IF input
    • From external Bandpass Filter Switch

Receiver Module

QRP-Labs Receiver-Base P1969-720px.jpg

Polyphase Module

  • Important to observe part outlines
    • Adjacent resistors can be put in "sideways"

QRP-Labs Polyphase-Filter P1966-500px.jpg Polyphase-pcb.PNG

Polyphase-pcb-2.png

Polyphase-Schematic.PNG

  • USB/LSB select jumpers
    • Set to USB in the above picture

Polyphase LSB-USB-Jumpers.PNG

Bandpass Module

  • 20M - 14 MHz Filter

QRP-Labs BandPass-Filter P1963-720px.jpg

Bandpass Filter Schematic.PNG

  • NanoVNA
    • 12-16 MHz

14MHz 12-16MHz Band Pass Filter-2.png

  • Data

14MHz 12-16MHz Band Pass Filter-Data.png

14MHz 12-16MHz Band Pass Filter-Analysis.png

Build Issues

  • Transformers don't fit well and crowd parts around them
  • QRP Labs polyphase module pics are for older revision card
  • One of the two variable caps on the Bandpass filter was very hard to turn even after the first turn

Reference Documents

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