High speed calibration method for impedance tuner

What is claimed is: 1. A calibration method for computer-controlled slide screw impedance tuner, wherein the slide screw impedance tuner comprises: a test port, an idle port, a slabline with a center conductor between the ports and, at least one stepper motor remotely controlled metallic RF tuning probe, insertable vertically (Y) into the slabline between full withdrawal (Y=0) and closest proximity to the center conductor (Y=Y MAX ), and movable horizontally (X) along the slabline from a position closest to the test port (X=0) to a position at least half a wave length X=X MAX =λ(F)/2 further away, at a test frequency F; and an electronic control board, configured to: detect limit switches of horizontal and vertical tuning probe movement limits, control the stepper motors, and emit electronic trigger pulses to a vector network analyzer; and wherein the calibration method for the computer-controlled slide screw impedance tuner comprises: (a) a data-sampling technique, wherein the vector network analyzer is triggered by electronic pulses, emitted by the electronic control board, during the mechanical movement of the at least one tuning probe to instantaneously retrieve and temporarily store internally s-parameter data of the slide screw impedance tuner corresponding to the instantaneous horizontal and vertical positions of the at least one tuning probe, (b) a tuner control and s-parameter collection procedure, wherein the control computer controls the stepper motor and downloads, in batch format at pre-determined intervals, in the vector network analyzer internally temporarily saved S-parameter data; (c) a reflection factor scaling method, wherein the control computer inserts gradually the at least one tuning probe vertically into the slabline, while measuring, registering and numerically describing a reflection factor at the test port as a function of the vertical position (Y) of the at least one tuning probe. 2. The calibration method for computer-controlled slide screw impedance tuner as in claim 1 , wherein the data sampling technique comprises: while the electronic control board directs the stepper motors to insert and move the at least one tuning probe to positions into and along the slabline, the said electronic control board emits, during the at least one tuning probe movement, at pre-determined intervals, electronic trigger pulses causing the vector network analyzer to instantaneously retrieve and temporarily store internally s-parameters of the slide screw impedance tuner corresponding to the instantaneous horizontal and vertical positions of the at least one tuning probe, until downloaded into the control computer in batch format and saved. 3. The calibration method for computer-controlled slide screw impedance tuner as in claim 1 , wherein the tuner control and s-parameter collection procedure comprises: (a) the control computer instructs the tuner control board to move the at least one tuning probe to a horizontal and/or vertical position X, Y; (b) the tuner control board emits, at given horizontal deltaX or vertical deltaY increments, electronic trigger pulses to the vector network analyzer, causing it to initiate s-parameter reading and internal temporary saving; (c) the control computer retrieves (downloads) s-parameter data from the vector network analyzer in batch format at multiples of deltaX or deltaY. 4. The calibration method for computer-controlled slide screw impedance tuner as in claim 2 , wherein the reflection factor scaling method comprises the following steps: (a) connect the tuner to the pre-calibrated vector network analyzer; (b) define a number of reflection factor circles N and triggering intervals T in motor steps; (c) initialize the at least one tuning probe by withdrawing it from the slabline, which defines Y=0, and placing it close to the test port, which defines X=0; (d) in a movement-measurement loop: inserting the at least one tuning probe gradually into the slot of the slabline from Y=0 to Y=Y MAX while triggering readings of the vector network analyzer at T number of motor step intervals and retrieving and temporarily saving reflection factor |S 11 | data at the test port using the data sampling technique; (e) creating a best-approximation polynomial function of at least third order for the reflection factor |S11| as a function of normalized vertical tuning probe position y=Y/Y MAX ; (f) selecting at least N equidistant |S11.k| values, k=1, 2, 3 . . . N, between S11.min=S11(Y=0) and S11.max=S11(Y=Y MAX ), determine the associated vertical probe position Y.k from the polynomial function of step (e) and save |S11.k| with the associated Y.k value in a scaling table; wherein k is a circle index. 5. The calibration method for computer-controlled slide screw impedance tuner as in claim 4 , comprising: (a) define a number M of points on reflection factor circle k, wherein M(Y.k)=k*P, with P=4 or 8 or 16 or 32 and k=1, 2, 3 . . . N; (b) initialize the at least one tuning probe to X=0 and Y=0; (c) in a vertical {Y} probe movement loop from Y=0 to Y=Y MAX , move the at least one tuning probe to the vertical Y.k positions for k=1, 2, 3, . . . N, and in nested horizontal {X} probe movement loops from X=0 to X=X MAX for increasing X and from X=X MAX to X=0 for decreasing X: trigger internal s-parameter Sij.k(X,Y.k) readings from the vector network analyzer at int (X MAX /M(Y.k)) horizontal step intervals, for {i,j}={1,2} and save temporarily; increase k, download the temporarily saved s-parameters from the vector network analyzer to the control computer and move the at least one tuning probe to Y.k; (d) save all s-parameters and associated X and Y positions of the at least one tuning probe in a tuner calibration file for later use. 6. The calibration method for computer-controlled slide screw impedance tuner as in claim 4 , comprising: (a) define point density factors M(Y.k)=k*P, with P=4 or 8 or 16 or 32 and k=1, 2, 3 . . . N; (b) initialize the at least one tuning probe to X=0 and Y=0; (c) in a vertical {Y} probe movement loop from Y=0 to Y=Y MAX , move the at least one tuning probe to the vertical Y.k positions for k=1, 2, 3, . . . N, and in nested horizontal {X} probe movement loops from X=0 to X=X MAX ; trigger internal s-parameter Sij.k(X, Y.k) readings from the vector network analyzer at int X MAX /M(Y.k)) horizontal step intervals of the at least one tuning probe, for {i,j}={1,2} and save temporarily; download the temporarily saved s-parameters from the vector network analyzer to the control computer, increase k, return the at least one tuning probe to X=0, insert it to Y=Y.k and repeat the horizontal tuning probe movement from X=0 to X=X MAX , the s-parameter reading and the temporarily saving; (d) save all s-parameters and associated X and Y tuning probe positions in a tuner calibration file for later use. 7. The calibration method for computer-controlled slide screw impedance tuner as in claim 4 , wherein the number of reflection factor circles N is typically between 3 and 20. 8. The calibration method for computer-controlled slide screw impedance tuner as in claim 4 , wherein the horizontal movement limit of the at least one tuning probe is at least one half of a wavelength at the frequency F, X MAX =λ(F)/2.