1

Synoptic

The design has been highly inspired from the SID monitor of the Stanford Solar Center.

1

Schematic

The schematic has been designed using the CadSoft EAGLE Layout Editor.

The RF pre-amplifier section is built around one non-inverting amplifier (IC3A) with a gain of 200 and an inverting amplifier (IC3B) with a gain adjustable between 0 and 25 by R7.

The signal is then filtered in the tuning section. It feeds a MAX275 (IC4), which is a continuous-time 4th-order active filter. The MAC275 is configured as a bandpass filter; center frequency and gain are adjusted by R101/R201, R102+R100/R202+R200, R103/R203 and R104/R204.
A table listing resistor values for some VLF stations can be downloaded here. It has been defined for a quality factor of each 2nd-order section of 170 and a gain of 4.

MAX275 tuning resistor values

(application/pdf, 11Kb, 02 Jul 2007)

For calculating tuning resistor values for other frequencies, refer to the MAX275 datasheet that contains all formulas.

The next section is the RF post amplifier. The first stage is an inverting amplifier (IC6A) with a gain selectable from 2, 5 or 20. The second stage is a full-wave rectifier and averaging filter peak detector build around IC7A and IC7B. A strength signal is available at the output of this stage.

In the analog output section, IC5A and IC5B filter out and amplify the signal.

Finally, the analog to digital conversion is performed by the 12-bits ADC MAX187 (IC10). Interface to RS232 signal levels is done through a MAX220 (IC8).

Eagle 4.14 Schematics		(application/octet-stream, 326Kb, 21 Jul 2007)
Schematics in PDF format		(application/pdf, 157Kb, 21 Jul 2007)
Components List		(application/pdf, 9Kb, 02 Jul 2007)

To view those files, you need a PDF viewer such as SumatraPDF (Windows):  or Adobe® Reader® (Windows, Mac, Linux): 

1	Board Layout

The layout has been done with the objective to fit in a single layer board. To achieve that, a few straps have been necessary. The receiver fits on a single 100x160mm (3-15⁄16x6-5⁄16″) board.

Eagle 4.14 Board		(application/octet-stream, 49Kb, 21 Jul 2007)
Board in PDF format		(application/pdf, 227Kb, 21 Jul 2007)
Board in PDF format (B&W)		(application/pdf, 226Kb, 21 Jul 2007)
Board in PDF format (B&W and mirrored)		(application/pdf, 226Kb, 21 Jul 2007)
Components Placement in PDF format		(application/pdf, 403Kb, 21 Jul 2007)

Here is a picture of the final board:

1

Tuning

The tuning of the receiver needs a signal generator and a frequency analyser. Thanks to the low frequencies involved, one can use a sound card offering a sampling frequency of 96kHz, such as Sound Blaster  Audigy™ 2 ZS. For a few tens of dollars, you have all hardware required to tune the receiver...
Download Spectrum Lab, an Audio Spectrum Analyzer that offers all functionalities for our purpose and much more. The explanations here below assume the reader has a good knowledge of this software.

First, disconnect JP1 and JP2 to isolate the tuning section.
Set Spectrum Lab to generate a noise (level about -72dB). This is done through the 'Test Tone Generators' function in the View/Windows menu.
Set Spectrum Lab so that one channel of the frequency analyser is associated to the output of the signal generator (left channel) and the other is associated to the external signal input. This is done through the 'Spectrum Lab Components' function in the View/Windows menu.

Connect signal output to test point TP_TUNING_IN.
Connect the test_point TP_FREQA to the input of the frequency analyser.
Adjust R100 so that the peak of the bandpass filter is at the desired frequency.
See the example below for a 23.4kHz frequency. The left part of the graph is the noise. The right part is the output of the first 2nd-order section of the MAX275.

Connect the test_point TP_TUNING_OUT to the input of the frequency analyser.
Adjust R200 so that the peak of the bandpass filter is at the desired frequency.
See the example below for a 23.4kHz frequency. The left part of the graph is the noise. The right part is the output of the second 2nd-order section of the MAX275.

Finally, disconnect the signal generator and reconnect JP1. Connect the antenna and set one input of the frequency analyser (left channel) to TP_TUNING_IN. Set the other input (right channel) to TP_TUNING_OUT. Check that the relevant station is actually selected.
See the example below for a 23.4kHz frequency. The left part of the graph corresponds to the signal at the output of the RF pre-amplifier with several VLF transmitters. The right part correspond to the output of the tuning section with only the signal of the selected station.

The last steps consist in setting the 'RF gain' (R7) and post amplifier gain (JP3/JP4/JP5) so that the full range of the ADC converter is used. When no signal is present, the output (TP_ANALOG_OUT) should be close to zero (a few hundreds of mV at most). The signal level at mid-day should be around 1.5 to 2V.

1

Assembly

Last step is to put the PCB in a metallic box with the transformer, fuse and power switch.
See the pictures herebelow for assembly example.

0	RS-232 Interface