Frequency generator, method and computer program

The invention claimed is: 1. A frequency generator comprising: a quantization circuit configured to synthesize a carrier signal with a desired frequency characterized by a series of phase transitions at desired time instants, by approximating a phase transition at a desired time instant with a phase transition at a quantized effective time instant, wherein the phase transition at the quantized effective time instant is an output of the quantization circuit; a noise shaper circuit configured to provide a noise-shaped feedback signal using the desired time instant and the quantized effective time instant; and an error generator circuit configured to cause an error component within a time instant of a phase of a signal provided as an input to the quantizer circuit, wherein the error component is at least 50 per cent of a temporal quantization unit of the quantizer circuit, and wherein the error component is determined using a non-Gaussian and non-equally distributed error distribution. 2. The frequency generator according to claim 1 , wherein the quantization circuit is configured to synthesize the carrier signal with the desired frequency characterized by the series of phase transitions, wherein a time interval between two subsequent phase transitions is given by an integer number of temporal quantization units. 3. The frequency generator according to claim 1 , wherein a first error value within the error distribution has a lower probability than a second error value larger than the first error value. 4. The frequency generator according to claim 1 , wherein the noise shaper is configured to provide the noise-shaped feedback signal using a difference between the effective time instant and the desired time instant. 5. The frequency generator according to claim 1 , further comprising a first signal adder configured to subtract the noise-shaped feedback signal from the desired time instant value, and to provide a modified desired time instant value as an input to the quantization circuit in a subsequent iteration step. 6. The frequency generator according to claim 5 , further configured to approximate a phase transition at the modified desired time instant with a phase transition at a further effective time instant given by an integer number of quantization units after a finite number of iteration steps, wherein the finite number follows a probability distribution depending on the error component. 7. A transmitter comprising a frequency generator according to claim 1 , and a signal mixer for mixing the synthesized carrier signal. 8. A receiver comprising a frequency generator according to claim 1 , and a downmixer for mixing the synthesized carrier signal. 9. A mobile communication device comprising a transceiver according to claim 1 and a receiving interface coupled to the receiver, wherein the receiving interface is configured to receive an incoming signal using a carrier frequency. 10. A mobile communication device according to claim 9 , further configured to combine a carrier signal with the carrier frequency and a further carrier signal in a carrier aggregation scenario. 11. A frequency generator comprising: a quantization circuit configured to synthesize a carrier signal with a desired frequency characterized by a series of phase transitions at desired time instants, by approximating a phase transition at a desired time instant with a phase transition at a quantized effective time instant, wherein the phase transition at the quantized effective time instant is an output of the quantization circuit; a noise shaper circuit configured to provide a noise-shaped feedback signal using the desired time instant and the quantized effective time instant; and an error generator circuit configured to cause an error component within a time instant of a phase of a signal provided as an input to the quantizer circuit, wherein the error generator is configured to provide the error component using a sum of an offset value and a quantization error. 12. The frequency generator according to claim 11 , wherein: the quantization circuit is configured to approximate the phase transition at the desired time instant by selecting one in a group comprising a closest match and a second-closest match for the desired time instant; and wherein the error generator is configured to apply the offset value to a selected effective time instant. 13. The frequency generator according to claim 11 , wherein the offset value corresponds to an integer multiple of quantization units or to one in a group comprising one quantization unit and two quantization units. 14. A means for generating a frequency comprising: a means for quantization configured to synthesize a carrier signal with a desired frequency characterized by a series of phase transitions at desired time instants, by approximating a phase transition at a desired time instant with a phase transition at a quantized effective time instant, wherein the phase transition at the quantized effective time instant is an output of the means for quantization; a means for noise shaping configured to provide a noise-shaped feedback signal using the desired time instant and the quantized effective time instant; and a means for error generation configured to cause an error component within a time instant of a phase of a signal provided as an input to the means for quantization, wherein the error component is at least 50 per cent of a temporal quantization unit of the means for quantization, wherein the error component is determined using a non-Gaussian and non-equally distributed error distribution. 15. A method for synthesizing a carrier signal with a desired frequency characterized by a series of phase transitions at desired time instants, the method comprising: approximating a phase transition at a desired time instant of a signal input to a quantization circuit with a phase transition at an effective time instant of a signal output from the quantization circuit; providing a noise-shaped feedback signal using the desired time instant and the effective time instant; and causing an error component within a time instant of the signal input to the quantizer circuit, the error component being at least 50 per cent of a temporal quantization unit, and wherein the error component is determined using a non-Gaussian and non-equally distributed error distribution. 16. A computer program having a program code stored on a non-transitory medium, the program code comprising instructions that when executed on a computer or processor performs a method for synthesizing a carrier signal with a desired frequency characterized by a series of phase transitions at desired time instants, comprising: approximating a phase transition at a desired time instant of a signal input to a quantization circuit with a phase transition at an effective time instant of a signal output from the quantization circuit; providing a noise-shaped feedback signal using the desired time instant and the effective time instant; and causing an error component within a time instant of the signal input to the quantizer circuit, the error component being at least 50 per cent of a temporal quantization unit, and wherein the error component is determined using a non-Gaussian and non-equally distributed error distribution.