Positioning of wireless devices

The invention claimed is: 1. A method performed by a network node for finding a direction to a wireless device in a wireless communication network, a set of predefined precoders usable by the network node for user communication being known by both said network node and said wireless device, each precoder being defined by an individual pre-coding matrix, wherein said method comprises the steps of: said network node transmitting a plurality of pairs of reference signals on at least one pair of correlated antennas, each pair of correlated antennas comprising a first and a second antenna, and each pair of reference signals comprising a first and a second reference signal and having its own unique phase difference between said first and said second reference signal, said first reference signal being transmitted on said first antenna and said second reference signal being transmitted on said second antenna, wherein the unique phase differences of said plurality of pairs of reference signals are distributed over a given angular interval; said network node receiving from said wireless device, in response to each pair of reference signals transmitted with its own unique phase difference, a respective indication of a preferred pre-coding matrix; and said network node determining a direction to said wireless device based on the received indications, information representative of at least part of the phase differences of said plurality of pairs of reference signals, and precoder-related phase information representative of differences in phase between the antennas for at least part of the indicated preferred pre-coding matrices, wherein determining the direction to said wireless device comprises: said network node identifying, based on the received indications, a change in indicated preferred pre-coding matrix and corresponding phase difference values in said given angular interval between which said change in indicated preferred pre-coding matrix occurred; and said network node calculating a direction to said wireless device based on the identified phase difference values and precoder-related phase information related to the preferred pre-coding matrices which were indicated before and after said change occurred. 2. The method of claim 1 , wherein each pre-coding matrix represents a specific phase difference between the first and second antenna, and said precoder-related phase information is defined by a phase difference half-way between the specific phase differences represented by the preferred pre-coding matrices which were indicated before and after said change occurred. 3. The method of claim 1 , wherein said step of said network node determining a direction to said wireless device is performed based on information representative of the phase differences of said plurality of pairs of reference signals arranged in a first vector Padd, and precoder-related phase information representative of differences in phase between the antennas for the indicated preferred pre-coding matrices arranged in a corresponding second vector Pprec, wherein a scalar product of the first and second vector is determined as: P=P add ·P prec , and the direction D of the wireless device in relation to the orientation of the antennas, assuming antenna forward direction as a reference, is calculated as: D =arcsin( v·λ/ 2π d ), where d is the distance between the antennas, v is the argument of P and λ is the wavelength. 4. The method of claim 1 , wherein the phase differences of said plurality of pairs of reference signals are regularly distributed over said given angular interval. 5. The method of claim 4 , wherein said given angular interval spans 360 degrees and the phase differences of said plurality of pairs of reference signals are evenly distributed over said given angular interval. 6. The method of claim 4 , wherein the phase differences of said plurality of pairs of reference signals are selected so as to sweep said given angular interval in equal steps. 7. The method according to claim 1 , wherein the number of pairs of reference signals is larger than the number of precoders in said set of predefined precoders. 8. The method according to claim 1 , wherein said network node is a base station and said wireless device is a user equipment. 9. A method performed by a network node for positioning a wireless device in a wireless communication network, wherein said method comprises the method of finding a direction to a wireless device according to claim 1 and the further step of determining a position of said wireless device based on said direction in combination with distance information. 10. A network node configured to find a direction to a wireless device in a wireless communication network, a set of predefined precoders usable by the network node for user communication being known by both said network node and said wireless device, each precoder being defined by an individual pre-coding matrix, wherein said network node comprises: a transmitter configured to transmit a plurality of pairs of reference signals on at least one pair of correlated antennas, each pair of correlated antennas comprising a first and a second antenna, and each pair of reference signals comprising a first and a second reference signal and having its own unique phase difference between said first and said second reference signal, said first reference signal being transmitted on said first antenna and said second reference signal being transmitted on said second antenna, wherein the unique phase differences of said plurality of pairs of reference signals are distributed over a given angular interval; a receiver configured to receive from said wireless device, in response to each pair of reference signals transmitted with its own unique phase difference, a respective indication of a preferred pre-coding matrix; and a processor configured to determine a direction to said wireless device based on the received indications, information representative of at least part of the phase differences of said plurality of pairs of reference signals and precoder-related phase information representative of differences in phase between the antennas for at least part of the indicated preferred pre-coding matrices, wherein said processor is further configured to: identify, based on the received indications, a change in indicated preferred pre-coding matrix and corresponding phase difference values in said given angular interval between which said change in indicated preferred pre-coding matrix occurred, and calculate a direction to said wireless device based on the identified phase difference values and precoder-related phase information related to the preferred pre-coding matrices which were indicated before and after said change occurred. 11. The network node of claim 10 , wherein each pre-coding matrix represents a specific phase difference between the first and second antenna, and said precoder-related phase information is defined by a phase difference half-way between the specific phase differences represented by the preferred pre-coding matrices which were indicated before and after said change occurred. 12. The network node of claim 10 , wherein said processor is configured to determine a direction to said wireless device based on information representative of the phase differences of said plurality of pairs of reference signals arranged in a first vector Padd, and precoder-related phase information representative of differences in phase between the antennas for the indicated preferred pre-coding matrices arranged in a corresponding second vector Pprec, wherein said processor is configured to determine a scalar product of the first