Single coaxial interface for magnetic resonace (MR) coils

The invention claimed is: 1. A magnetic resonance (MR) coil channel comprising: a coil element configured to receive resonance signals; at least one active component powered by a power signal carried on a coaxial transmission line, the voltage of the power signal carried on the coaxial transmission line varying between first and second direct current (DC) voltages of the same polarity; and a tune/detune circuit connected to the coaxial transmission line and the coil element, the tune/detune circuit being configured to tune the coil element in response to the power signal reaching the first DC voltage, and detune the coil element in response to the power signal reaching the second DC voltage; wherein the tune/detune circuit includes a comparator circuit configured to compare the voltage of the power signal to a reference voltage to determine whether to tune or detune the coil element. 2. The MR coil channel according to claim 1 , wherein the coil element detects radiofrequency (RF) signals, and wherein the detected RF signals are provided to an external system or device on the coaxial transmission line. 3. The MR coil channel according to claim 2 , wherein the at least one active component includes a preamplifier configured to amplify the detected RF signals and provide the amplified RF signals to the external system or device over the coaxial transmission line. 4. The MR coil channel according to claim 3 , wherein the preamplifier is gain stable over the first and second DC voltages. 5. A magnetic resonance (MR) coil array including one or more coil channels, each corresponding to a coil element, the MR coil array connected to an external system or device using a coaxial transmission line and comprising: a coil element corresponding to one of the coil channels; and a coil element circuit corresponding to the coil element, the coil element circuit including: at least one active component powered by a power signal carried on the coaxial transmission line, the voltage of the power signal varying between first and second direct current (DC) voltages of the same polarity, and a tune/detune circuit connected to the coaxial transmission line and the coil element, the tune/detune circuit tunes or detunes the coil element based on the first and second DC voltages of the power signal, wherein the voltage of the power signal is used to convey digital data facilitating calibration at production time of the MR coil array. 6. The MR coil channel according to claim 1 , wherein the tune/detune circuit is configured to tune or detune the coil element by changing a bias across a PIN diode. 7. A method for tuning or detuning an MR coil array including one or more coil channels, each coil channel corresponding to a coil element, the MR coil array connected to an external system or device using a coaxial transmission line, the method comprising: powering at least one active component of the MR coil array by a power signal carried on the coaxial transmission line, the voltage of the power signal varying between first and second direct current (DC) voltages, the first and second DC voltages both having the same polarity; receiving by a driver circuit a command to tune or detune the MR coil array, the driver circuit being connected to the coaxial transmission line; selecting by the driver circuit between two power sources based on a command, each power source providing one of the same polarity first and second DC voltages; providing by the driver circuit the power signal from the selected power source to the MR coil array over the coaxial transmission line; and tuning or detuning a coil element of the MR coil array corresponding to one of the coil channels by a tune/detune circuit of the MR coil array, wherein the tune/detune circuit tunes the coil element in response to the first DC voltage of the power signal, detunes the coil element in response to the second DC voltage, and is connected to the coaxial transmission line. 8. The method according to claim 7 , wherein the at least one active component includes a preamplifier, configured to amplify radio frequency (RF) signals received from the MR coil array and send the amplified RF signals over the coaxial transmission line. 9. The method according to claim 8 , further including: reconstructing the amplified RF signals sent over the coaxial transmission into an MR image; and displaying the MR image on a display device. 10. The method according to claim 7 , further including: tuning the coil element by the tune/detune circuit in response to the power signal reaching the first DC voltage; and detuning the coil element by the tune/detune circuit in response to the power signal reaching the second DC voltage. 11. The method according to claim 7 , further including: changing a bias across a PIN diode of the MR coil array by the tune/detune circuit to tune or detune the coil element. 12. The method according to claim 7 , wherein the first DC voltage corresponds to a tune state and the second DC voltage corresponds to a detune state. 13. A magnetic resonance (MR) system comprising: a coaxial transmission line configured to connect an external device or system to a coil channel, the external device or system including a driver circuit configured to output a first direct current (DC) voltage and a second DC voltage over the coaxial transmission line, the first and second DC voltages being of the same polarity; wherein the coil channel includes: a coil element configured to receive MR signals, a tune/detune circuit configured to tune the coil element in response to receiving the first DC voltage via the coaxial transmission line and detune the coil element in response to receiving the second DC voltage via the transmission line, a preamplifier configured to receive the MR signals from the coil element, amplify the received MR signals, and transmit the amplified MR signals over the coaxial transmission line to the external system or device, the preamplifier being powered by the first DC voltage when the first DC voltage is sent over the coaxial transmission line, and by the second DC voltage when the second DC voltage is sent over the coaxial transmission line, the preamplifier being gain stable when powered by the first or second voltage. 14. The MR system according to claim 13 , further including: a backend system configured to control the MR coil array, control the driver circuit and generate an MR image of a patient from the amplified MR signals. 15. The MR system according to claim 13 , wherein the power signal is used to convey digital data over the coaxial transmission line.