This project came about
due to my interest in a new form of radio transmission called DRM, which stands for “Digital Radio Mondiale” (see ).
This is a new form of digital shortwave transmission. A few devices are
available from Europe for decoding the digital signals but are
expensive. I decided instead to modify an existing circuit, using a
stable purpose-built 470kHz ceramic resonator as the oscillator, rather
than the original unstable L/C version. The 455kHz IF signal from a
shortwave receiver is fed into the input (pin 1) of a double-balanced
mixer and oscillator (IC1) via a level adjustment pot (VR1). The NE506’s
output (pin 4) is then AC-coupled to a PC’s sound card input for
processing. With the capacitor between pins 5 & 7 set to 150pF, the
oscillator frequency should be around 467.5kHz. You can check if the
oscillator is working by putting it near a receiver tuned to 467kHz. You
红包扫雷苹果下载地址 should hear a beat frequency.
The IF signal of 455kHz is mixed with 467kHz, giving an output with a
centre frequency of 12kHz. Sound cards should have no trouble sampling
the 10kHz-wide DRM signal. A number of
software-defined radio applications were found to work well with this
converter. These applications perform all of the demodulation (SSB, AM, FM, etc) and various other DSP
functions. If all is well, connect your 455kHz IF to the input and your
computer sound card to the output. Run the Dream software (see ), and tune to 6095Khz (RNZI), or 1440Khz (SBS). You should see the Dream software lock onto the DRM
transmission and audio should start playing from the computer speakers.
The NE602AN mixer/oscillator and 470kHz resonator are available for a
cost of $12.50. A CD with various software defined receivers as well as the latest Dream software decoder is also available.
Author: John Titmuss
红包扫雷苹果下载地址 Copyright: Silicon Chip Electronics