Programmable amplitude and phase controller

What I claim is: 1. A remotely adjustable RF attenuation and transmission phase controller (APC) comprising an input and an output port and transmission media between the ports; and a wideband adjustable signal coupler (wave-probe) inserted between the ports; said wave-probe having a coupled port and an isolated port, whereby part of the signal entering the input port is injected into the coupled port of the wave-probe, and is extracted from the output port, and whereby the adjustable coupling factor of the wave-probe controls the attenuation and the distance of the wave-probe from the input port controls the phase of the APC. 2. The APC as in claim 1 , whereby a section of the transmission media is a slotted airline (slabline) comprising two ports, an input port and an idle port, two sidewalls and a center conductor; whereby the idle port is terminated with characteristic impedance (Zo), and whereby the remaining section of the transmission media comprises the wave-probe and flexible RF cable leading from the coupled port to the output port and whereby the isolated port of the wave-probe is terminated with characteristic impedance (Zo). 3. The APC, as in claim 2 , comprising a mobile carriage sliding horizontally along the slabline, said carriage comprising a vertical axis. 4. The APC as in claim 3 , whereby the wave-probe is attached to the vertical axis and can be inserted into the slot of the slabline. 5. The APC as in claim 4 , whereby the vertical axis is remotely controlled allowing adjustment of the coupling factor between the center conductor of the slabline and the wave-probe. 6. The APC as in claim 5 , whereby the position of the carriage along the slabline is remotely controlled. 7. The APC as in claim 2 or 6 , whereby Zo is 50 Ohms. 8. The APC as in claim 7 , whereby an amplifier having an input port and an output port is inserted in the transmission media between the coupled port of the wave-probe and the output port of the APC, whereby the coupled port of the wave-probe is connected to the amplifier input port and the amplifier output port is connected to the output port of the APC. 9. The APC as in claim 8 , whereby a low pass filter is inserted between the output port of the amplifier and the output port of the APC. 10. The APC as in claim 9 , whereby an equalizing network (low pass filter) is inserted between the coupled port of the wave-probe and the input port of the amplifier. 11. The APC as in claim 8 , whereby an equalizing network (low pass filter) is inserted between the coupled port of the wave-probe and the input port of the amplifier. 12. A calibration method for APC as in claim 7 , wherein the APC is connected to a pre-calibrated vector network analyzer (VNA) using RF cables and to a control computer using digital cables; and scattering (s-) parameters are measured by the VNA between the input port and the output port of the APC for various vertical positions (Y) of the wave-probe and distances (X) between the wave-probe and the input port, the positions being controlled by the computer, which is in operative communication with the VNA; and whereby the s-parameters are retrieved by the computer and saved in calibration files for later use.