Abstract: Contact engines, probe head assemblies, probe systems, and associated methods for on-wafer testing of the wireless operation of a device under test (DUT). A contact engine includes a flexible dielectric membrane having a first surface and a second surface and a plurality of probes supported by the flexible dielectric membrane. The plurality of probes are oriented to contact a plurality of contact locations on the DUT. Each probe in the plurality of probes includes a corresponding probe tip that projects from the second surface of the flexible dielectric membrane and is configured to electrically and physically contact a corresponding contact location of the plurality of contact locations. The contact engine further includes at least one membrane antenna supported by the flexible dielectric membrane. A probe head assembly includes the contact engine. A probe system includes the probe head assembly. Associated methods include methods of utilizing the contact engine.

Abstract: Contact engines, probe head assemblies, probe systems, and associated methods for on-wafer testing of the wireless operation of a device under test (DUT). A contact engine includes a flexible dielectric membrane having a first surface and a second surface and a plurality of probes supported by the flexible dielectric membrane. The plurality of probes are oriented to contact a plurality of contact locations on the DUT. Each probe in the plurality of probes includes a corresponding probe tip that projects from the second surface of the flexible dielectric membrane and is configured to electrically and physically contact a corresponding contact location of the plurality of contact locations. The contact engine further includes at least one membrane antenna supported by the flexible dielectric membrane. A probe head assembly includes the contact engine. A probe system includes the probe head assembly. Associated methods include methods of utilizing the contact engine.

Abstract: Systems and methods are provided for tunable band pass filtering for Tunable RF Anti-Jamming Systems. A tunable notch filter includes a transmission line coupled to an antenna, a splitter, a band-stop filter, a polarity inverter, and a combiner. In operation, the band-stop filter suppresses predetermined frequency bands of a received signal creating a filtered signal, the polarity inverter creates an inverted signal, and the combiner combines the filtered and inverted signals to create a pass band including the predetermined frequency bands and suppressing frequency bands adjacent the predetermined frequency bands.

Abstract: A tunable band pass filtering for Tunable RF Anti-Jamming Systems is provided. Such embodiments include a first bandpass filter tunable to a first frequency band and a second bandpass filter coupled to the first bandpass filter and tunable to a second frequency band. In addition, a plurality of tunable passive components may be adapted to tune the first and second bandpass filters to the first and second frequency bands, respectively, thereby creating a multiband pass band signal to include the first and second frequency bands and attentuating frequency bands adjacent to the first and second frequency bands.

Abstract: A tunable notch filter, comprises a transmission line coupled to an antenna; a plurality of ring resonators inductively coupled to the transmission line, wherein each ring resonator of the plurality of ring resonators is grounded and comprises a variable microelectromechanical systems (MEMS) capacitor; wherein a set of variable MEMS capacitors of the plurality of variable MEMS capacitors are independently tunable to vary a notch location and a notch width of the tunable notch filter; and wherein a set of ring resonators of the plurality of ring resonators further comprises an attenuator configured to reduce power reflected from the antenna.