Great Job, maybe you should come out with a Android App, using the headphone adapter the same way as the microphone input. I am waiting patiently for the noise to go away which is occuring at 220 kHz to 500 kHz. The good news is that my broadcast LW reception is good enough using the G4000A. I received Morocco a couple of nights ago on 171 kHz. Good job keep up the great work.
@gccengineering1996 If there was a development kit in C and I could get my hands on a homebrewed/cracked android, I could probably get that running, most of the code is just plain old C code. I already have a program on my Linux PC that takes a high sample rate WAV file and makes an audio frequency (8kHz to 48 kHz) WAV file of what you tune it to. Of course, since the PC version is non-realtime, I use a floating point FFT for better sound quality.
Great Job, maybe you should come out with a Android App, using the headphone adapter the same way as the microphone input. I am waiting patiently for the noise to go away which is occuring at 220 kHz to 500 kHz. The good news is that my broadcast LW reception is good enough using the G4000A. I received Morocco a couple of nights ago on 171 kHz. Good job keep up the great work.
gccengineering1996 1 year ago
@gccengineering1996 If there was a development kit in C and I could get my hands on a homebrewed/cracked android, I could probably get that running, most of the code is just plain old C code. I already have a program on my Linux PC that takes a high sample rate WAV file and makes an audio frequency (8kHz to 48 kHz) WAV file of what you tune it to. Of course, since the PC version is non-realtime, I use a floating point FFT for better sound quality.
Amishman35 1 year ago