Abstract: The present invention relates to a method for calibrating a receiver device or a stimulus-response system comprising a receiver device. The method comprises the steps of generating at least one tone with a repeatable and known phase value, said at least one tone being stepped in frequency to cover a given set of calibration tones, and applying the at least one tone to the receiver device or to the stimulus-response system, generating a reference signal, which is phase-coherent with the at least one tone, to measure in a phase-coherent way with the receiver device or with the stimulus-response system the at least one tone, measuring at least the phase of the at least one tone using the receiver device or the stimulus-response system, determining at least phase-related information for calibration coefficients at the given set of calibration tones by calculating a phase deviation of the measured phase from the known phase value of the at least one tone.

Abstract: A method for calibrating a vector network analyzer may include performing a first set of measurements on a first port of a plurality of ports and determining error coefficients for the first port. The error coefficients may be used to obtain a first calibrated port. For an uncalibrated port of the plurality of ports, a connection via a known through between an already calibrated port and the uncalibrated port may be established and a first signal from a first signal source may be applied to the calibrated port and a second signal form a second signal source may be applied to the uncalibrated port. A further set of measurements with respect to the uncalibrated port may be performed and error coefficients may be determined for the uncalibrated port based on the further set of measurements and relation to error coefficients of the calibrated port.

Abstract: The present invention relates to a method for calibrating a receiver device or a stimulus-response system comprising a receiver device. The method comprises the steps of generating at least one tone with a repeatable and known phase value, said at least one tone being stepped in frequency to cover a given set of calibration tones, and applying the at least one tone to the receiver device or to the stimulus-response system, generating a reference signal, which is phase-coherent with the at least one tone, to measure in a phase-coherent way with the receiver device or with the stimulus-response system the at least one tone, measuring at least the phase of the at least one tone using the receiver device or the stimulus-response system, determining at least phase-related information for calibration coefficients at the given set of calibration tones by calculating a phase deviation of the measured phase from the known phase value of the at least one tone.

Abstract: A method for calibrating a vector network analyzer may include performing a first set of measurements on a first port of a plurality of ports and determining error coefficients for the first port. The error coefficients may be used to obtain a first calibrated port. For an uncalibrated port of the plurality of ports, a connection via a known through between an already calibrated port and the uncalibrated port may be established and a first signal from a first signal source may be applied to the calibrated port and a second signal form a second signal source may be applied to the uncalibrated port. A further set of measurements with respect to the uncalibrated port may be performed and error coefficients may be determined for the uncalibrated port based on the further set of measurements and relation to error coefficients of the calibrated port.

Abstract: A method of and an arrangement for characterizing non-linear behavior of RF and microwave devices under test in a near matched environment. The method comprises the steps of exciting the device by an RF signal under different load conditions, measuring signal data at input and output ports of the device, verifying whether the measurement data meet predetermined quality criteria; calculating, from the measurement data, model parameters of a predetermined model for characterizing the non-linear behavior of the device, and verifying assumptions made in the characterization model by collecting additional measurement data and comparing same with data calculated from the model using the model parameters calculated. The load conditions are obtained by connecting to the output port of the device a matched load, an open, a short and a plurality of attenuators and delays.

Abstract: A method of and an arrangement for characterizing non-linear behavior of RF and microwave devices under test in a near matched environment. The method comprises the steps of exciting the device by an RF signal under different load conditions, measuring signal data at input and output ports of the device, verifying whether the measurement data meet predetermined quality criteria; calculating, from the measurement data, model parameters of a predetermined model for characterizing the non-linear behavior of the device, and verifying assumptions made in the characterization model by collecting additional measurement data and comparing same with data calculated from the model using the model parameters calculated. The load conditions are obtained by connecting to the output port of the device a matched load, an open, a short and a plurality of attenuators and delays.