Magnetic resonance imaging apparatus

The invention claimed is: 1. A magnetic resonance imaging apparatus comprising: an RF coil apparatus configured to receive magnetic resonance signals by a plurality of coil elements corresponding to a plurality of channels, to modulate the magnetic resonance signals to have different frequencies for each of the channels, and to output an analog multiplexed signal in which the magnetic resonance signals with different frequencies are composited over the plurality of channels; a receiver including analog-to-digital conversion circuitry configured to convert the analog multiplexed signal to a digital multiplexed signal, and including a predetermined number of separation channels configured to separate the digital multiplexed signal, based on a number of the channels relating to composition of the magnetic resonance signals with the different frequencies; and processing circuitry configured to cause, if one or more separation channels among the predetermined number of separation channels are not used in a process of separation of the digital multiplexed signal, the receiver to stop the process of separation for the one or more separation channels. 2. The magnetic resonance imaging apparatus according to claim 1 , wherein the processing circuitry is configured to acquire, from the RF coil apparatus, identification information including the number of the channel relating to multiplexing of the magnetic resonance signals, to judge the number of the channel relating to the composition based on the identification information, and to specify at least one separation channel on which the process of separation is to be stopped among the predetermined number of separation channels. 3. The magnetic resonance imaging apparatus according to claim 1 , wherein the RF coil apparatus further includes multiplication circuitry configured to multiply, with respect to each of the channels, each of a plurality of local signals with the frequencies which are different between the channels, by each of the magnetic resonance signals which are output from the channels, respectively. 4. The magnetic resonance imaging apparatus according to claim 2 , wherein the processing circuitry is configured to judge whether an analog signal which is output from the RF coil apparatus to the receiver is the multiplexed signal or a signal corresponding to a single channel. 5. The magnetic resonance imaging apparatus according to claim 1 , wherein the receiver further includes an oscillator configured to generate local signals having frequencies which are different between the channels, and each of the separation channels includes: multiplication circuitry configured to multiply the digital multiplexed signal by the local signals and to output signals having frequency bands which are common between the separation channels; and a filter configured to pass the signals which are output from the multiplication circuitry, by using pass bands which are common between the separation channels. 6. A magnetic resonance imaging apparatus comprising: an RF coil apparatus including a plurality of coil elements which correspond to a plurality of channels and are configured to receive a plurality of magnetic resonance signals, an oscillator configured to generate a plurality of first local signals having, respectively, a plurality of first frequencies corresponding to the plurality of channels, a multiplier configured to multiply, with respect to each of the channels, the plurality of magnetic resonance signals by the plurality of first local signals, and composition circuitry configured to generate an analog multiplexed signal by adding the magnetic resonance signals which were multiplied by the first local signals, over the channels; and a receiver including an analog-to-digital converter configured to convert the analog multiplexed signal to a digital multiplexed signal, and a direct digital synthesizer configured to generate a plurality of second local signals having, respectively, a plurality of second frequencies corresponding to the first frequencies, the receiver being configured to separate the digital multiplexed signal into a number of the channels relating to an addition of the magnetic resonance signals, and to multiply, with respect to each of the channels, the digital multiplexed signal before the separation or the digital multiplexed signal after the separation by the second local signals. 7. The magnetic resonance imaging apparatus according to claim 6 , wherein the oscillator is a direct digital synthesizer configured to generate a digital signal corresponding to the first local signal, and the RF coil apparatus further includes a digital-to-analog converter configured to convert the digital signal to the first local signal which is an analog signal. 8. The magnetic resonance imaging apparatus according to claim 6 , wherein the oscillator is configured to generate the first local signal which is an analog signal, and the direct digital synthesizer is configured to reset a phase value of a waveform which is indicative of the second local signal, in every cycle of the second local signal. 9. The magnetic resonance imaging apparatus according to claim 6 , wherein the receiver includes a filter configured to separate the digital multiplexed signal by using a pass band corresponding to the second frequency.