900MHz. To get miles of range, you’d be using yagi antennas.
You can accurately predict the range between two units if you do a “RF link budget”. Google that. There are many on-line tools. Essentially…
Transmitter’s power, in dBm. Example: 10mW = 10dBm, 1mW=0dBm.
add Transmitting antenna gain in dB
add Receiving antenna gain in dB
subtract path loss, calculated from physics, path length versus frequency.
subtract possible loss if the Fresnel zone isn’t clear. This happens for long paths if the antennas are not high enough.
subtract a bit for coax cable/connector losses, if any.
this sums up to the received signal strength in dBm. Compare this to the required signal strength for a certain vendor product/mode.
The excess signal strength is called link margin. You’ll want margin to accommodate occasional fading, say, a margin of 6dB. The cure for low margin is usually higher antenna gain. At 900MHz, this can be a 4 ft. long yagi with about 8dB gain as I recall.
Now the hard part: if the path is not line of sight (trees, buildings) you have to add to the path loss a figure depicting this. There are a few models of this, based on general measurements for cellular. But really, if there is low margin, you have to do this experimentally. Experience in wireless allows people to intuit what cannot work.
Also, don’t forget possible interference - in No. America 902-928MHz is an unlicensed shared use band. For high reliability, some radios (including some that Digi makes) use frequency hopping to avoid interference.
so with some discipline, this can be more than guesswork and trial-and-error