Method and magnetic resonance imaging device for performing a quality analysis of a radio frequency coil

The invention claimed is: 1. A method for performing a quality analysis (QA) of a radio frequency (RF) coil of a magnetic resonance imaging device configured to acquire magnetic resonance (MR) signals by the RF coil from an object in an operational mode of the magnetic resonance imaging device, the method comprising performing the following in a test mode by the magnetic resonance imaging device: emitting a test signal by a RF transmitter; receiving directly the test signal from the RF transmitter by the RF coil, wherein the RF coil provides an output signal; activating a component of the magnetic resonance imaging device during the receiving of the test signal to simulate a realistic condition for the operational mode, wherein the component is an amplifier, a gradient coil, or a combination thereof; and analyzing, by a processor of the magnetic resonance imaging device or a processor in communication with the magnetic resonance imaging device, the output signal of the RF coil, therein providing a performance indicator for the quality analysis. 2. The method of claim 1 , wherein the output signal, the performance indicator, or both the output signal and the performance indicator are compared to a reference value. 3. The method of claim 2 , wherein the reference value corresponds to a value based on a measurement during an initialization of the magnetic resonance imaging device, a benchmark value, or a combination thereof. 4. The method of claim 1 , wherein, in the providing of the performance indicator, an amplitude of the output signal, a time dependency of the amplitude of the output signal, or both the amplitude of the output signal and the time dependency of the amplitude of the output signal are detected. 5. The method of claim 1 , wherein the test signal comprises several frequencies or a frequency sweep. 6. The method of claim 1 , wherein the magnetic resonance imaging device comprises a bore, and wherein, in the test mode, the bore is free from the object to be observed, a MR probe, a phantom, or a combination thereof. 7. The method of claim 6 , wherein a plurality of RF coils is arranged inside the bore, wherein the test signal from the RF transmitter is received by each RF coil of the plurality of RF coils, wherein each RF coil of the plurality of RF coils provides an output signal, and wherein performance indicators are provided by analyzing the output signals of the plurality of RF coils for the quality analysis. 8. The method of claim 1 , wherein, during the receiving of the test signal, the RF coil is tuned or detuned. 9. The method of claim 1 , wherein the test signal includes a RF pulse having a ramp shape or a rectangular shape. 10. The method of claim 1 , wherein the test signal is received by the RF coil and a further RF receiver for comparing the output signal of the RF coil and a further output signal of the further RF receiver. 11. The method of claim 1 , wherein the RF transmitter is a body coil of the magnetic resonance imaging device or an additional RF transmitter. 12. The method of claim 1 , further comprising: identifying, by the processor of the magnetic resonance imaging device or a processor in communication with the magnetic resonance imaging device, whether any defects of the RF coil are present or whether any modifications to the RF coil are needed based on the performance indicator. 13. A magnetic resonance imaging device for performing a quality analysis of a radio frequency (RF) coil in a test mode of the magnetic resonance imaging device, the magnetic resonance imaging device comprising: a RF transmitter configured to emit a test signal; a RF coil configured to directly receive the test signal from the RF transmitter, wherein the RF coil provides an output signal; and a processor configured to: activate a component of the magnetic resonance imaging device during the receiving of the test signal to simulate a realistic condition for an operational mode of the magnetic resonance imaging device, wherein the component is an amplifier, a gradient coil, or a combination thereof, and analyze the output signal of the RF coil to provide a performance indicator for the quality analysis of the RF coil in the test mode of the magnetic resonance imaging device. 14. A non-transitory computer program product that is directly loadable into a memory of a magnetic resonance imaging device, wherein the computer program product, when executed by the magnetic resonance imaging device, is configured to cause the magnetic resonance imaging device to: emit a test signal by a radio frequency (RF) transmitter; directly receive the test signal from the RF transmitter by a RF coil, wherein the RF coil provides an output signal; activate a component of the magnetic resonance imaging device during receipt of the test signal to simulate a realistic condition for a operational mode of the magnetic resonance imaging device, wherein the component is an amplifier, a gradient coil, or a combination thereof; and analyze the output signal of the RF coil to provide a performance indicator for a quality analysis of the magnetic resonance imaging device. 15. The non-transitory computer program product of claim 14 , wherein the computer program product is further configured to cause the magnetic resonance imaging device to: identify whether any defects of the RF coil are present or whether any modifications to the RF coil are needed based on the performance indicator.