Title :
Design and measurements of a novel subharmonically pumped millimeter-wave mixer using two single planar Schottky-barrier diodes
Author_Institution :
Inst. of Appl. Phys., Bern Univ., Switzerland
fDate :
6/1/1996 12:00:00 AM
Abstract :
A novel design of a subharmonically pumped millimeter-wave mixer operating at room temperature was developed and realized. The double sideband conversion loss and mixer noise temperature were measured to be 6.2 dB and 930 K, respectively, at a local oscillator frequency of 73 GHz and an IF of 1.5 GHz. These results are comparable to the best published results measured for subharmonically pumped mixers at similar frequencies. The mixer shows good performance even at IF´s up to 9.5 GHz resulting in a useful RF range from 136 GHz to 156 GHz. For the first time a subharmonically pumped millimeter-wave mixer was designed without the use of any scale model measurements or other high-frequency measurements. The whole design process occurred on the basis of computer simulations. Two single low-capacitance planar air-bridge type Schottky-barrier diodes are used as the mixing elements
Keywords :
Schottky diode mixers; circuit noise; microstrip circuits; millimetre wave measurement; millimetre wave mixers; 1.5 GHz; 136 to 156 GHz; 6.2 dB; 73 GHz; IF; RF range; computer simulations; double sideband conversion loss; local oscillator frequency; mixer noise temperature; planar Schottky-barrier diodes; room temperature operation; shielded microstrip line; single low-capacitance planar air-bridge type Schottky-barrier diodes; subharmonically pumped millimeter-wave mixer; Frequency conversion; Frequency measurement; Local oscillators; Loss measurement; Millimeter wave measurements; Mixers; Noise measurement; Radio frequency; Temperature measurement; Time measurement;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
