Distance Measurement Between Two Nodes of a Radio Network

What is claimed is: 1 . A method, comprising: transmitting, by a first node in a radio network, a first radio frequency (RF) signal with a first frequency; receiving, by the first node, a second RF signal with a second frequency by downmixing the second RF signal to an intermediate frequency, the second RF signal transmitted by a second node in the radio network in response to receiving the first RF signal; determining, by the first node, a first value of a first phase for the second frequency; transmitting, by the first node, a third RF signal with a third frequency, the first frequency and the third frequency having a frequency difference; receiving, by the first node, a fourth RF signal with a fourth frequency, the second frequency and the fourth frequency having the frequency difference, the fourth RF signal transmitted by the second node in response to receiving the third RF signal; and determining, by the first node, a second value of the first phase for the fourth frequency, the first frequency and the second frequency being spaced apart by an amount of the intermediate frequency, the third frequency and the fourth frequency being spaced apart by the amount of the intermediate frequency. 2 . The method of claim 1 , further comprising calculating a distance between the first node and the second node at least from the first value and the second value of the first phase and from a first value of a second phase for the first frequency and a second value of the second phase for the third frequency and from the frequency difference. 3 . The method of claim 2 , further comprising: transmitting to the second node the first value of the first phase and the second value of the first phase. 4 . The method of claim 2 , further comprising: receiving from the second node the first value of the second phase and the second value of the second phase; and calculating, by the first node, the distance based on the first value of the second phase and the second value of the second phase. 5 . The method of claim 1 , further comprising: transmitting, by the first node, a fifth RF signal with a fifth frequency, the third frequency and the fifth frequency having the frequency difference; receiving, by the first node, a sixth RF signal with a sixth frequency, the fourth frequency and the sixth frequency having the frequency difference, the sixth RF signal transmitted by the second node in response to receiving the fifth RF signal; determining, by the first node, a third value of the first phase for the sixth frequency, the fifth frequency and the sixth frequency of the sixth RF signal being spaced apart by the amount of the intermediate frequency; and calculating, by the first node, a distance between the first node and the second node at least from the first value, the second value, and the third value of the first phase; a first value of a second phase for the first frequency, a second value of the second phase for the third frequency, and a third value of the second phase for the fifth frequency; and the frequency difference. 6 . The method of claim 1 , wherein the first RF signal and the second RF signal are transmitted in a same time interval delayed in time. 7 . The method of claim 1 , wherein a time interval between determining the first value of the first phase for the second frequency and determining the second value of the first phase for the fourth frequency is substantially the same as a time interval between determining a first value of a second phase for the first frequency and determining a second value of the second phase for the third frequency. 8 . The method of claim 1 , wherein the second RF signal is received by the first node and in a bottom sideband is passed through a sideband filter below the first frequency. 9 . The method of claim 1 , wherein the first RF signal, the second RF signal, the third RF signal, and the fourth RF signal are transmitted according to industry standard Institute of Electrical and Electronics Engineers (IEEE) 802.15.1. 10 . The method of claim 1 , wherein the first RF signal, the second RF signal, the third RF signal, and the fourth RF signal are transmitted according to industry standard Institute of Electrical and Electronics Engineers (IEEE) 802.15.4. 11 . A circuit of a first node of a radio network, the circuit comprising: a transceiver configured to: transmit a first radio frequency (RF) signal with a first frequency; receive a second RF signal with a second frequency by downmixing the second RF signal to an intermediate frequency, the second RF signal transmitted by a second node in the radio network in response to receiving the first RF signal; transmit a third RF signal with a third frequency, the first frequency and the third frequency having a frequency difference; and receive a fourth RF signal with a fourth frequency, the second frequency and the fourth frequency having the frequency difference, the fourth RF signal transmitted by the second node in response to receiving the third RF signal; a phase measurement unit configured to: determine a first value of a first phase for the second frequency; and determine a second value of the first phase for the fourth frequency, the first frequency and the second frequency being spaced apart by an amount of the intermediate frequency, the third frequency and the fourth frequency being spaced apart by the amount of the intermediate frequency. 12 . The circuit of claim 11 , configured to transmit to a second node the first value of the first phase and the second value of the first phase. 13 . The circuit of claim 11 , configured to: receive from the second node a first value of a second phase for the first frequency and a second value of the second phase for the third frequency; and calculate a distance between the first node and the second node at least from the first value and the second value of the first phase and from the first value and the second value of the second phase and from the frequency difference. 14 . The circuit of claim 11 , wherein: the transceiver is configured to: transmit a fifth RF signal with a fifth frequency, the third frequency and the fifth frequency having the frequency difference; receive a sixth RF signal with a sixth frequency, the fourth frequency and the sixth frequency having the frequency difference, the sixth RF signal transmitted by the second node in response to receiving the fifth RF signal; the phase measurement unit is configured to determine a third value of the first phase for the sixth frequency, the fifth frequency and the sixth frequency of the sixth RF signal being spaced apart by the amount of the intermediate frequency; and the circuit is configured to calculate a distance between the first node and the second node at least from the first value, the second value, and the third value of the first phase; a first value of a second phase for the first frequency, a second value of the second phase for the third frequency, and a third value of the second phase for the fifth frequency; and the frequency difference. 15 . The circuit of claim 11 , wherein the first RF signal and the second RF signal are transmitted in a same time interval delayed in time. 16 . The circuit of claim 11 , wherein a time interval between determining the first value of the first phase for the second frequency and determining the second value of the first phase for the fourth frequency is substantially the same as a time interval between determining a first value of a second phase for the first frequency and determining a second v