Mixer unit

The invention claimed is: 1. A mixer unit for frequency translating, based on a local oscillator, LO, signal, an input signal having one or more input signal components, said mixer unit comprising: an input port for receiving the input signal, wherein the input port has an input terminal for each input signal component; an output port for outputting a frequency translated output signal having one or more output signal components, wherein the output port has an output terminal for each output signal component; a signal processing path from each input terminal to each output terminal, wherein the LO signal has an associated LO signal component for each signal processing path, and the LO signal components have the same LO frequency; a plurality of mixer switches; and a control unit adapted to: for each signal processing path, dynamically select an associated subset, denoted as an active switch subset, of the plurality of mixer switches, for operation in the signal processing path such that which of the plurality of mixer switches belong to said active switch subset varies in time, and, at any instant in time, the union of all the active switch subsets, denoted as a combined active subset, is a strict subset of the plurality of mixer switches; and drive only the mixer switches in said combined active subset by, for each mixer switch in the combined active subset, supplying, to the mixer switch, the LO signal component associated with the signal processing path in which that mixer switch is operated; wherein the input signal is a differential input signal having a first and a second input signal component; wherein the input port is a differential input port comprising a first input terminal for receiving the first input signal component and a second input terminal for receiving a second input signal component; wherein the output signal comprises one or more differential output signal pairs, wherein each differential output signal pair comprises a first output signal component of the differential output signal pair and a second output signal component of the differential output signal pair; and wherein, for each differential output signal pair: the output port comprises a corresponding differential output terminal pair having a first output terminal of the differential output terminal pair for outputting the first output signal component of the differential output signal pair; and a second output terminal of the differential output terminal pair for outputting the second output signal component of the differential output signal pair; and wherein, for each differential output terminal pair, there is an associated signal processing path group of four signal processing paths, namely: a first signal processing path, which is the signal processing path from the first input terminal to the first output terminal of the differential output terminal pair; a second signal processing path, which is the signal processing path from the first input terminal to the second output terminal of the differential output terminal pair; a third signal processing path, which is the signal processing path from the second input terminal to the first output terminal of the differential output terminal pair; and a fourth signal processing path, which is the signal processing path from the second input terminal to the second output terminal of the differential output terminal pair. 2. The mixer unit according to claim 1 , wherein each active switch subset at any instant in time consists of exactly one mixer switch. 3. The mixer unit according to claim 1 , wherein the control unit is adapted to, for each one of two or more of the signal processing paths: dynamically select which of the mixer switches are currently operated in that signal processing path in a time-periodic sequence associated with the signal processing path; wherein the time-periodic sequences associated with the two or more of the signal processing paths have mutually different periods. 4. The mixer unit according to claim 1 , wherein, for each signal processing path group: the LO signal component associated with the first signal processing path of the signal processing path group and the LO signal component associated with the fourth signal processing path of the signal processing path group are both generated equal to a first LO signal component associated with the signal processing path group; and the LO signal component associated with the second signal processing path of the signal processing path group and the LO signal component associated with the third signal processing path of the signal processing path group are both generated equal to a second LO signal component associated with the signal processing path group; wherein the first and the second LO signal component associated with the signal processing path group together forms a differential LO signal component of the signal processing path group. 5. The mixer unit according to claim 4 , wherein the output signal comprises a plurality of differential output signal pairs, and consequently a plurality of associated differential output terminal pairs and a plurality of associated signal processing path groups, wherein the differential LO signal components of the signal processing path groups have mutually shifted phases. 6. The mixer unit according to claim 5 , wherein the mixer unit is a quadrature mixer unit having two differential output signal pairs, wherein one differential output signal pair is an in-phase, I, differential output signal pair, for which there are an associated I differential output terminal pair and an associated I signal processing path group, and the other differential output signal pair is a quadrature-phase, Q, differential output signal pair, for which there are an associated Q differential output terminal pair and an associated Q signal processing path group, and wherein the differential LO signal components of the I and Q signal processing paths are generated in quadrature. 7. The mixer unit according to claim 1 , wherein at least some of the mixer switches are grouped into double balanced passive mixers, each comprising four mixer switches, and the control unit is adapted to dynamically select the active switch subsets such that for each such double balanced passive mixer: each mixer switch of that double balanced passive mixer belongs to the combined active subset if and only if the other mixer switches of that double balanced passive mixer also belongs to the combined active subset, and all mixer switches of the double balanced mixer are then operated in signal processing paths of a signal processing path group that is common to the mixer switches of the double balanced passive mixer. 8. The mixer unit according to claim 7 , wherein, for each double balanced passive mixer, said signal processing path group common to the mixer switches of the double-balanced passive mixer is the same each time the control unit selects the mixer switches of the double balanced passive mixer for inclusion in the combined active subset. 9. The mixer unit according to claim 7 , wherein, for each double balanced passive mixer, said signal processing path group common to the mixer switches of the double-balanced passive mixer varies in time. 10. The mixer unit according to claim 7 , wherein, for each double balanced passive mixer: the double balanced mixer has a first active mode, wherein a first mixer switch of the double balanced passive mixer is operated in the first signal processing path of the signal processing path group common to the mixer switches of the double-balanced passive mixer; a second mixer switch of the double balanced passive mixer is operated in the second signal process