Active noise source design

1 . An active noise source apparatus, comprising a first switched-biased noise amplifier branch, a second switched-biased noise amplifier branch, a directional coupler having a pair of input ports connected to combine noise outputs from the first and second switched-biased noise amplifiers, one output port of the directional coupler being connected to a matched termination and another output port of the directional coupler being connected to an output of the active noise source. 2 . The apparatus as claimed in claim 1 , wherein the first switched-biased noise amplifier branch comprises a first noise amplifier having a switched biasing, and a first noise-generating device connected to an input of the first noise amplifier, and a second noise-generating device connected to the input of the second noise amplifier. 3 . The apparatus as claimed in claim 1 , wherein the switched biasing of the first noise amplifier and the second noise amplifier being at least loosely synchronized with each other. 4 . The apparatus as claimed in claim 1 , wherein the switched biasing of the first and second noise amplifiers is configured to sequentially switch the first and second noise amplifiers between an on-biased state and an off-biased state. 5 . The apparatus as claimed in claim 1 , wherein the first noise amplifier and the second noise amplifier have essentially same structure and operation. 6 . The apparatus as claimed in claim 1 , wherein the first noise-generating device and the second noise-generating device each comprises a resistor or a semiconductor device 7 . The apparatus as claimed in claim 1 , wherein the directional coupler comprises a 4-port directional coupler having a first input port connected to the output of the first noise amplifier, a second input port connected to the output of the second noise amplifier, a first output port connected to the output of the active noise source apparatus, and a second output port connected to the matched termination. 8 . The apparatus as claimed in claim 1 , wherein the directional coupler comprises a Lange coupler having an input port, an isolated port, a direct port, and a coupled port. 9 . The apparatus as claimed in claim 1 , wherein the output of the active noise source apparatus comprises a ground-signal-ground, GSG, contact pad. 10 . The apparatus as claimed in claim 1 , wherein the output of the active noise source apparatus comprises a contact pad with a floating shield structure, and the apparatus optionally comprising a galvanically interconnected first pair of a first ground pad and a respective separated parallel first ground metallization provided adjacent to the signal pad on one side, and a galvanically interconnected second pair of a second ground pad and a respective separated parallel ground metallization is provided adjacent to the signal pad on opposite side, wherein the first ground pad, the signal pad and the second ground pad are preferably substantially coplanar, and wherein the first ground metallization and the second ground metallization are galvanically interconnected and preferably substantially coplanar with the floating shield. 11 . The apparatus as claimed in claim 1 , wherein a shunt transmission line is connected parallel with a capacitance of the GSG contact pad. 12 . The apparatus as claimed in claim 1 , comprising means for monitoring a noise power at the matched termination. 13 . The apparatus as claimed in claim 1 , comprising a noise power control arranged to adjust amplification of the first and second switched-biased noise amplifiers based on a noise power level monitored at the matched termination. 14 . The apparatus as claimed in claim 1 , comprising a bias control arranged to adjust the switched biasing of the first and second noise amplifiers based on a noise power level monitored at the fourth output port connected to the matched termination. 15 . A calibration arrangement of a radiometer, the calibration arrangement comprising an active noise source apparatus as claimed in arranged to output a broadband noise signal that is injected to an input of the radiometer, the active noise source apparatus further comprising a first switched-biased noise amplifier branch, a second switched-biased noise amplifier branch, a directional coupler having a pair of input ports connected to combine noise outputs from the first and second switched-biased noise amplifiers, one output port of the directional coupler being connected to a matched termination and another output port of the directional coupler being connected to an output of the active noise source.