Very Wideband automated On-Wafer noise figure and Gain measurements At 50-110

On-wafer noise figure and insertion gain measurement set-ups have been developed over 50-110 GHz frequency range. Wafer scale noise figure and insertion gain measurements can be done in an automatic manner using PC controlled automated probe station and in-house written software. In narrow band measurements, large systematic errors may remain undiscovered. These errors are usually caused by reflections in the set-up, which are difficult to calibrate out. Wideband measurements are often the only method, which can efficiently reveal these errors. This aspect is increasingly important as frequency increases

Low noise amplifiers in InP technology for pseudo correlating millimeter wave radiometer

This decade will be very important for cosmology due to several missions to measure the cosmic microwave background radiation. These measurements require highly sensitive radiometers operating over a very wide frequency spectrum. The millimeter wave radiometers are best developed as pseudo correlating radiometers due to the inherent stability and high sensitivity of this instrument, To miniaturize the size and power consumption of these radiometers we have developed the critical low noise amplifier and phase switch MMICs using high-performance InP technologies. The low noise amplifiers achieved record 2.3 dB noise figure over the 60-80 GHz frequency band at room temperature and less than 25 K noise temperature at 20 K ambient temperature. These MMICs form the building blocks for 70 GHz highly sensitive correlating radiometers, that are needed e.g. in the ESA Planck mission

Coplanar 155 GHz MHEMT MMIC low noise amplifiers

This paper describe the small signal properties of four 155 GHz low noise amplifiers (LNAs). The LNAs employs a 100-nm gallium arsenide based metamorphic high electron mobility transistors with gate length of 2x15 µm in coplanar waveguide topology. The scattering parameters and noise figures of the amplifiers are presented. The measured gains at 155 GHz are 14-22 dB with the measured noise figures of 6.7-7.2 dB