Magnetic resonance system having variable frequency transmit pulses

The invention claimed is: 1. A method of operating a magnetic resonance system, the method comprising: outputting, by a controller, a base signal to a converter, the base signal having a low frequency; outputting, by the controller, an oscillator control signal to an oscillator when outputting, the base signal to the converter; generating by the oscillator, a frequency signal corresponding to the oscillator control signal and outputting the frequency signal to the converter, generating the frequency signal comprising controlling a frequency, a phase position, or the frequency and the phase position of the frequency signal; converting, by the converter, the frequency signal into a transmit pulse with the aid of the base signal and outputting the transmit pulse to a magnetic resonance transmit antenna, the transmit pulse having a high frequency; applying, with the magnetic resonance transmit antenna, a field corresponding to the transmit pulse to an examination volume of the magnetic resonance system, the field having a high frequency; receiving, by a magnetic resonance receive antenna, a signal from the examination volume as a result of the applied field corresponding to the transmit pulse; and generating an image based on the received signal; wherein the controller varies the oscillator control signal output to the oscillator when outputting the base signal to the converter, and wherein the transmit pulse has a larger bandwidth than the base signal. 2. The method as claimed in claim 1 , further comprising: feeding the base signal and the frequency signal to a modulator within the converter; modulating, with the modulator, the frequency signal with the aid of the base signal to form a base pulse and outputting the base pulse within the converter to a power amplifier, the base pulse having a high frequency; and amplifying, with the power amplifier, the base pulse to the transmit pulse. 3. The method as claimed in claim 2 , further comprising varying, with the controller, the oscillator control signal continuously or in stages, dividing the outputting of the base signal to the modulator into several time segments of a predetermined length or predetermined minimum length and varying the oscillator control signal from time segment to time segment with the oscillator remaining constant within the time segment, or a combination thereof. 4. The method as claimed in claim 2 , further comprising: prespecifying characteristics of a desired transmit pulse and limitations for possible base signals, limitations for a curve of the oscillator control signal, or a combination thereof to the controller; and automatically determining, with the controller, the base signal and the curve of the oscillator control signal with the aid of the predetermined characteristics and the predetermined limitations for possible base signals, the limitations for the curve of the oscillator control signal, or the combination thereof. 5. The method as claimed in claim 2 , further comprising: outputting, with the controller, the base signal as a target signal to a base controller; outputting, with the power amplifier, the transmit pulse to a demodulator and outputting the transmit pulse to the magnetic resonance transmit antenna; outputting, with the oscillator, the frequency signal to the demodulator and outputting the frequency signal to the modulator; demodulating, with the demodulator, the transmit pulse with the aid of the frequency signal to form a low frequency signal and outputting the low frequency signal as an actual signal to the base controller; and determining, with the base controller, a low frequency control signal to be output to the modulator with the aid of the target signal and the actual signal and outputting the low frequency control signal to the modulator. 6. The method as claimed in claim 5 , further comprising: prespecifying characteristics of a desired transmit pulse and limitations for possible base signals, limitations for a curve of the oscillator control signal, or a combination thereof to the controller; and automatically determining, with the controller, the base signal and the curve of the oscillator control signal with the aid of the predetermined characteristics and the predetermined limitations for possible base signals, the limitations for the curve of the oscillator control signal, or the combination thereof. 7. The method as claimed in claim 5 , further comprising varying, with the controller, the oscillator control signal continuously or in stages, dividing the outputting of the base signal to the modulator into several time segments of a predetermined length or predetermined minimum length and varying the oscillator control signal from time segment to time segment with the oscillator remaining constant within the time segment, or a combination thereof. 8. The method as claimed in claim 5 , wherein the base controller has a controller bandwidth that is larger than a bandwidth of the base signal and smaller than a bandwidth of the transmit pulse. 9. The method as claimed in claim 8 , further comprising: prespecifying characteristics of a desired transmit pulse and limitations for possible base signals, limitations for a curve of the oscillator control signal, or a combination thereof to the controller; and automatically determining, with the controller, the base signal and the curve of the oscillator control signal with the aid of the predetermined characteristics and the predetermined limitations for possible base signals, the limitations for the curve of the oscillator control signal, or the combination thereof. 10. The method as claimed in claim 8 , further comprising varying, with the controller, the oscillator control signal continuously or in stages, dividing the outputting of the base signal to the modulator into several time segments of a predetermined length or predetermined minimum length and varying the oscillator control signal from time segment to time segment with the oscillator remaining constant within the time segment, or a combination thereof. 11. The method as claimed in claim 1 , further comprising: prespecifying characteristics of a desired transmit pulse and limitations for possible base signals, limitations for a curve of the oscillator control signal, or a combination thereof to the controller; and automatically determining, with the controller, the base signal and the curve of the oscillator control signal with the aid of the predetermined characteristics and the predetermined limitations for possible base signals, the limitations for the curve of the oscillator control signal, or the combination thereof. 12. The method as claimed in claim 11 , further comprising prespecifying a set of base curves of the oscillator control signal to the controller; and determining, with the controller, the curve of the oscillator control signal as a linear Combination of the set of base curves. 13. In a non-transitory computer-readable storage medium that stores machine code executable by a controller for a magnetic resonance system to operate the magnetic resonance system, the machine code including instructions comprising: outputting, by the controller, a base signal to a converter, the base signal having a low frequency; outputting, by the controller, an oscillator control signal to an oscillator when outputting the base signal to the converter; generating, by the controller, a frequency signal corresponding to the oscillator control signal and outputting the frequency signal to the converter, generating the frequency signal comprising controlling a frequency, a phase position, or the frequency and the phase posit