Hi guys, before you tell me it's illegal, and I shouldn't be doing this etc. I live in New Zealand, and here it's legal to receive any band except Cellular, and cordless phone bands.


If you have a TV capture card in your computer, you probably already have all the hardware you need to listen in on much more than just TV and radio (only software changes are needed). The hardware will also allow you to hear emergency services, taxi and freight radios, UHF citizen band radio, aircraft transmissions, and more.

In this article, I show you how you can make your Linux distribution (I used Debian Sarge, but other distros should work too, as long as you have a 2.6.x Linux kernel) and SAA7134 based TV card tune into those frequencies you can't get at with a normal radio or TV.

SAA7134 is a popular chip for tuner cards. It needs to be attached to a tuner such as the FI1216. This configuration is used on a number of popular TV cards (this list is taken from Linux kernel file drivers/media/video/saa7134/saa7134-cards.c):

* Proteus Pro [philips reference design]
* LifeView FlyVIDEO2000 and LifeView FlyVIDEO3000
* SKNet Monster TV
* Tevion MD 9717
* KNC One TV-Station DVR and KNC One TV-Station RDS
* Typhoon TV Tuner RDS and Typhoon TV+Radio 90031
* Terratec Cinergy 400 TV
* Medion 5044 and Medion 7134
* Kworld/KuroutoShikou SAA7130-TVPCI
* Terratec Cinergy 600 TV
* ASUS TV-FM 7134
* Compro VideoMate TV
* Matrox CronosPlus
* AverMedia M156 / Medion 2819
* ASUS TV-FM 7133
* Pinnacle PCTV Stereo (saa7134)
* Manli MuchTV M-TV002 and M-TV001
* Nagase Sangyo TransGear 3000TV
* Elitegroup ECS TVP3XP FM1216 Tuner Card(PAL-BG,FM) and FM1236 Tuner Card (NTSC,FM)
* AVerMedia DVD EZMaker and AVerMedia 305
* Noval Prime TV 7133
* Items MuchTV Plus / IT-005

I have only tested this with my FlyVideo 3000, although I expect that many of the above will also work. Other cards have similar hardware, but you will need to do some of the work yourself.

The exact range of frequencies you will have access to depends on the specific tuner you have. However, it will be about 44 MHz (below the standard FM frequency, in the VHF range) all the way up to about 958 MHz, in the UHF range.

The standard kernel driver, however, is not suitable for tuning into anything other than TV, because it has a limited set of tuner frequencies which it looks for at the detection stage. However, I have produced a modified kernel driver which will let you tune to arbitrary frequencies. I also produced a user-space program to control it. Grab the software package from here.

Untar the software package. You also need to install the kernel source corresponding to the kernel on your system (most distros come with a kernel source package). Go into the kernel subdirectory of the package, and then type:

make -C /usr/src/kernel-source-2.6.8 M=`pwd` modules

You need to replace the /usr/src/kernel-source-2.6.8 with the path to your kernel sources (that path is right for Debian Sarge systems). Now, you need to remove any saa7134 package you might have on your system, and replace it with the module you just compiled. You can do that like this (you must be root first):

rmmod saa7134

insmod ./saa7134.ko oss=1

You might also want to copy the saa7134.ko over the existing saa7134.ko in /lib/modules/2.6.version/kernel/drivers/media/video/, so it comes back when you restart your system.

Once you have put your package into the kernel, your kernel is ready to start tuning in. Go up a level in the software package, and type make. This will produce a setfreq binary. To tune into a radio frequency, you need to give two parameters:

* The frequency of the station you want to tune into.
* The optimal frequency at which to decode the sound. This depends on the bandwidth of the signal. For television sound, use 5000, 5500 or 6000. Most other FM radio signals use a narrower band, and 1000 generally works well. Even if you get the station frequency right, getting this one right is almost as important, or you won't hear much.

You need to figure out what frequency you want to tune into. A good way to do this is to look up spectrum licenses with the government body that allocates frequencies (if that information is readily available). You can also get lists for many countries from scanner clubs in your country. Another option would be just to try all frequencies in a certain range until you hit something.

For New Zealand, I used the frequency list from NZScanners. For example, one of the Central 1 Police frequency is 75.47500. I can tune into that by using ./setfreq 75.475 1000.

Now that you've got it working, here's a helpful hint, especially if you are getting poor reception: a good antenna makes a lot of difference. The antenna that came with your card is probably not very good, so consider investing in at least a bunny's ear antenna. You might get better reception still by connecting to an exterior VHF/UHF antenna (the same type as for normal television reception). Lower frequency reception may need a different antenna.

Another hint: On Linux, you have a lot more options for what to do with the sound than on your average scanner radio. You can read samples off your dsp device (it will often be dsp1, if your soundcard is already /dev/dsp). Turn off sound direct to the sound-card using a mixer program, and use a program like sox to process your sound as it goes from dsp1 to dsp. You can filter out distracting low frequency noise using the highp filter (anything below 50Hz is just distracting, and doesn't help much in identifying what they are saying). You could also potentially record sounds off the device, and stream it to other enthusiasts across the Internet, and even decode pager messages (but check that this is legal in your country before you try, especially if you are going to post about it!).

source from http://amxl.com/option,com_content/t.../id,1/Itemid,/

The post is so old the source page is dead.

Managed to get the kernel package from elsewhere.


Can someone please tell me how to get this all set up?

I'm running Ubuntu 12.04, and things have changed since that was released.