Frequency converter

The invention claimed is: 1. A frequency converter comprising: a first mixer arranged to receive a first input signal and a second input signal and to output a sum and a difference of said first and second input signals, generating means for generating the second input signal and for receiving the output signal of the first mixer and multiplying it by a signal at a frequency which is two times the frequency of the second input signal, thereby generating a product, and adding means for obtaining a sum of said product and the output signal from the first mixer. 2. The frequency converter of claim 1 , wherein the generating means comprise a local oscillator and a second order sub-harmonic mixer, the second order sub-harmonic mixer being arranged to receive as input signals the output signal from the local oscillator and the output from the first mixer. 3. The frequency converter of claim 1 , wherein the generating means comprise a dual-band local oscillator which is arranged to output a signal at frequency fLO to the first mixer and a signal at frequency 2*fLO to a second mixer which is also comprised in the frequency converter and which is arranged to also receive as an input signal the output from the first mixer. 4. The frequency converter of claim 1 , wherein the generating means comprise a local oscillator connected to a frequency multiplier with a multiplication factor of two, and a second mixer arranged to receive as input signals the output signal from the frequency multiplier and the product from the first mixer. 5. The frequency converter of claim 1 , wherein the generating means is arranged to receive the output signal of the first mixer via a band-pass filter which is arranged to remove a sum or a difference component in the output from the first mixer. 6. The frequency converter of claim 1 , further comprising a band-pass filter for removing one of the sum and the difference from the output signal of the first mixer. 7. A more frequency conversion, the method comprising: generating a second input signal; receiving, at a first mixer, a first input signal and the second input signal; outputting, by the first mixer, a first output signal comprising a sum and a difference of said first and second input signals; receiving, at a filter, the first output signal, wherein the filter is configured to filter the first output signal such that the filter produces a second output signal that comprises the sum said first and second input signals but does not comprise the difference of said first and second input signals; receiving, at a second mixer, the second output signal; multiplying, by the second mixer, the second output signal by a signal at a frequency which is two times the frequency of the second input signal, thereby generating a product, and obtaining a sum of said product and the first output signal from the first mixer. 8. The method of claim 7 , wherein the second mixer is a second order sub-harmonic mixer.