PATENT CLAIM ANALYSIS

Application Number: 15752692
Application Type: Utility
Filing Date: 2018-02
Publication Date: 2018-08
Patent Classification: ["702", "057000"]

Abstract:
A device and method of testing the dual-frequency nonlinear vector network parameters. In view of the challenge of the nonlinear behavioral model characterization of the microwave device components, and the current situation of the nonlinear vector network parameter testing, the disclosed device and method of testing the dual-frequency nonlinear vector network parameters redefines the nonlinear model parameters of the nonlinear device components, gives the definition of the test parameter (W-parameter), solves the challenges of the dual-frequency nonlinear behavioral model characterization and testing for the microwave device components, and makes it more convenient to measure the nonlinear characteristics of the mixer, amplifier and passive device components.

Claim (Index 1):
A device for testing dual-frequency nonlinear vector network parameters, the device comprising:\n a frequency reference module configured to generate two signal sources and a local oscillator signal source for sending a local oscillator signal to a receiver, the two signal sources being a first signal source and a second signal source; selector switches comprising a first selector switch, a second selector switch, a third selector switch, a fourth selector switch, a fifth selector switch, a sixth selector switch and a seventh selector switch; testing ports comprising a first testing port, a second testing port and a third testing port; multiplier selection units comprising a first multiplier selection unit and a second multiplier selection unit for realizing selection of pass-through, double, triple . . . n-tuple for the signals; receivers comprising an R receiver for providing a phase reference for the nonlinear testing, an R1 receiver for testing an output signal of the first signal source, an R2 receiver for testing the output signal of the second signal source, an A receiver for testing the signal entering the first testing port, a B receiver for testing the signal entering the second testing port, and a C receiver for testing the signal entering the third testing port; couplers comprising a first coupler, a second coupler, a third coupler, a fourth coupler and a fifth coupler; a mixer configured to frequency mix an output signal of the first multiplier selection unit and the output signal of the second multiplier selection unit and output the signal subject to frequency mixing to the R receiver via the fifth selector switch; a computer module; and loads comprising a first load and a second load, wherein each of the receivers comprises a frequency mixing module, an intermediate frequency conditioning module, an A/D conversion module and a DSP vector calculation module; the first coupler sends a coupled portion of the signal emitted from the first signal source to the R1 receiver; the second coupler sends the coupled portion of the signal emitted from the second signal source to the R2 receiver; the third coupler sends the coupled portion of the incoming signal from the first testing port to the A receiver; the fourth coupler sends the coupled portion of the incoming signal from the second testing port to the B receiver; the fifth coupler sends the coupled portion of the incoming signal from the third testing port to the C receiver; the first signal source and the second signal source input the signal to the first testing port or the third testing port in an independent or combined fashion, the second signal source outputs the signal to the second testing port independently, the local oscillator signal source sends the local oscillator signal to the R receiver, the R1 receiver, the R2 receiver, the A receiver, the B receiver and the C receiver; the signals from the first signal source and the said second signal source are respectively divided into the first multiplier selection unit and the second multiplier selection unit, and the signal output from the first multiplier selection unit is sent to the R receiver via the sixth selector switch and the fifth selector switch, or the signal output from the second multiplier selection unit is sent to the R receiver via the seventh selector switch and the fifth selector switch, or the signal output from the first multiplier selection unit and the signal output from the second multiplier selection unit enter the mixer where the frequency mixing is performed via the sixth selector switch and the seventh selector switch respectively, and the signal that is frequency mixed by the mixer is sent to the R receiver via the fifth selector switch; the signal in the R receiver and the signals that respectively enter the R1 receiver, R2 receiver, A receiver, B receiver and C receiver via the first coupler, the second coupler, the third coupler, the fourth coupler and the fifth coupler are frequency mixed with the local oscillator signal generated by the local oscillator signal source to output an intermediate frequency signal which is subjected to intermediate frequency conditioning by an intermediate frequency conditioning module, then enters the A/D conversion module for sampling and conversion and then enters the DSP vector calculation module where the digital intermediate frequency signal is subjected to I/Q decomposition and filtering, and the received signal is tested for amplitude and phase to obtain test data, the test data being sent to the computer module for nonlinear modeling; and the computer module controls a sweep frequency and a power of the first signal source, the second signal source, and the local oscillator signal source.

Metadata:
- Claim Count in Document: 1.0
- Percentile: 88.0
- Lexical Diversity: 2.5
- Patent Class: 702.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: True
- Related Applications: ['14006603', '13811177', '11259766', '13156177', '14664568']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.1641263218171118
- 35 USC 102 Novelty (BERT): 0.4729892499432533
- Combined Prediction Score: 0.1950126146297259
- Mean Citation Score: 157.001344
- Max Citation Score: 164.74811
- Similarity Product: 125.10205699242232

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test