Patents Assigned to Tektronix
-
Patent number: 11765002Abstract: A method of equalizing a communication link includes setting a number of coefficients to a required number, determining a number of pulse responses for a waveform, setting all values in a set of values to zero, repeating, until all values have been assigned, determining a current lowest parameter, using a position of the current lowest parameter as an index, determining a minimum value between a first term multiplied by a main pulse response minus a summation of each parameter multiplied by each value, divided by the current lowest parameter, and a corresponding pulse response, and assigning the minimum value to the value having a position equal to the position of the current lowest parameter, and determining a value of each coefficient in a set of coefficients by multiplying each value with the sign of a corresponding pulse response; defining an equalizer having a number of taps having a value based on the corresponding coefficient; and applying the equalizer to a waveform.Type: GrantFiled: May 26, 2022Date of Patent: September 19, 2023Assignee: Tektronix, Inc.Inventor: Kan Tan
-
Publication number: 20230266369Abstract: A test and measurement probe system, including an input to receive an input signal, the input signal including a low frequency (LF) and/or direct current (DC) component and an alternating current (AC) component, an extractor circuit, such as an AC coupling circuit or a LF and/or DC rejection circuit, configured to receive the input signal and to separate the AC component and the LF and/or DC component from the input signal, a first output to output the alternating current component to the test and measurement instrument, and a second output to output the direct current component to the test and measurement instrument. In some embodiments, the LF and/or DC component is digitized prior to being output by the second output.Type: ApplicationFiled: April 21, 2023Publication date: August 24, 2023Applicant: Tektronix, Inc.Inventor: Michael J. Mende
-
Patent number: 11733271Abstract: A current sensor configured to measure current in a current-carrying conductor. The current sensor includes a Rogowski coil having plurality of conductor segments. The plurality of conductor segments are positionable to form a substantially complete loop. A first conductor segment of the plurality of conductor segments is electrically isolated from a second conductor segment of the plurality of conductor segments.Type: GrantFiled: September 17, 2021Date of Patent: August 22, 2023Assignee: Tektronix, Inc.Inventor: Josiah A. Bartlett
-
Publication number: 20230258692Abstract: A test and measurement instrument includes a first channel input for accepting a first input signal, a second channel input for accepting a second input signal, a spectrogram processor for producing a first spectrogram from the first input signal and for producing a second spectrogram from the second input signal, and a display for simultaneously showing the first spectrogram and the second spectrogram. Methods are also described.Type: ApplicationFiled: February 10, 2023Publication date: August 17, 2023Applicant: Tektronix, Inc.Inventor: Gary J. Waldo
-
Publication number: 20230251699Abstract: A test and measurement instrument includes components and methods for measuring noise at an output of a power supply, measuring jitter of a serial data signal produced by a data generating circuit coupled to the power supply and correlating the noise measured from the power supply to the jitter of the serial data signal. The correlation may be performed in the frequency domain. Spectral plots of the measured noise and the measured jitter may be generated and presented to the user.Type: ApplicationFiled: February 3, 2023Publication date: August 10, 2023Applicant: Tektronix, Inc.Inventors: Madhusudan Acharya, Yogesh M. Pai, Krishna N H Sri, Anthony B. Ambrose, Blair Battye, Dallas J. Mohler
-
Patent number: 11719721Abstract: A test-and-measurement probe (200) for a test-and-measurement instrument (101), the test-and-measurement probe having a probe head (103) and a touchscreen user interface (250). The probe head is configured to obtain a signal from a device under test. The touchscreen user interface is configured to visually convey test-and-measurement information to a user and to accept user touch input. In embodiments, the touchscreen user interface is removably connected to a compbox (105) of the test-and-measurement probe, through a wired connection or wirelessly.Type: GrantFiled: June 11, 2019Date of Patent: August 8, 2023Assignee: Tektronix, Inc.Inventors: Karl A. Rinder, David A. Sailor, Josiah A. Bartlett
-
Publication number: 20230228803Abstract: A test and measurement system has one or more inputs connectable to a device under test (DUT), and one or more processors configured to execute code that causes the one or more processors to: gather a set of training waveforms by acquiring one or more waveforms from one or more DUTs or from simulated waveforms, remove noise from the set of training waveforms to produce a set of noiseless training waveforms, and use the set of noiseless training waveforms as a training set to train a neural network to predict a measurement value for a DUT, producing a trained neural network.Type: ApplicationFiled: January 9, 2023Publication date: July 20, 2023Applicant: Tektronix, Inc.Inventors: Wenzheng Sun, Pavel R. Zivny
-
Publication number: 20230221348Abstract: A structure has a flexible thermally conductive material having an adhesive surface and a non-adhesive surface, and a thermally conductive adhesive adhered to the adhesive surface of the flexible thermally conductive material leaving the non-adhesive surface exposed to an atmosphere in which the structure resides. A structure has a substrate having one or more conductive paths, and a flexible, thermally conductive material attached to at least a portion of the substrate to draw heat away from the conductive paths. An apparatus has a substrate having one or more conductive paths, a probe tip at one end of the substrate configured to electronically connect with a device under test, and a flexible, thermally conductive material attached to at least a portion of the substrate to draw heat away from the probe tip and conductive paths.Type: ApplicationFiled: November 30, 2022Publication date: July 13, 2023Applicant: Tektronix, Inc.Inventor: Julie A. Campbell
-
Publication number: 20230222382Abstract: A system to develop and test machine learning models has a waveform emulator machine learning system, a user interface to allow a user to input one or more design parameters for the waveform emulator machine learning system, one or more processors configured to execute code to cause the one or more processors to: send the one or more design parameters to the waveform emulator machine learning system; receive one or more data sets from the waveform emulator machine learning system, the one or more data sets based on the one or more design parameters; train a developed machine learning model using at least one of the one or more data sets, resulting in a trained machine learning model; validate the trained machine learning model using a previously unused one of the one or more data sets; adjust the trained machine learning model as needed; and repeat the training, validating, and adjusting until an optimal machine learning model is trained.Type: ApplicationFiled: December 14, 2022Publication date: July 13, 2023Applicant: Tektronix, Inc.Inventors: Wenzheng Sun, Xiaolan Wang, Justin E. Patterson
-
Publication number: 20230213556Abstract: A test and measurement device includes an input port to receive an input signal, a sampling circuit structured to generate a sample from the input signal, in which generating the sample from the input signal produces an amount of kickout energy, and an energy reducing circuit coupled between the sampling circuit and one or more other components of the test and measurement device, the energy reducing circuit structured to decrease the amount of kickout energy from the sampling circuit. The energy reducing circuit may include or be combined with a pick-off circuit. Methods are also described.Type: ApplicationFiled: December 30, 2022Publication date: July 6, 2023Applicant: Tektronix, Inc.Inventor: Pavel R. Zivny
-
Patent number: 11693046Abstract: A test and measurement instrument including a signal generator configured to generate a waveform to be sent over a cable to a device under test (DUT) and a real-time waveform monitor (RTWM) circuit. The RTWM is configured to determine a propagation delay of the cable, capture a first waveform, including an incident waveform and a reflection waveform at a first test point between the signal generator and the DUT, capture a second waveform including at least the incident waveform at a second test point between the signal generator and the DUT, determine a reflection waveform and the incident waveform based on the first waveform and the second waveform, and determine a DUT waveform based on the incident waveform, the reflection waveform, and the propagation delay. The DUT waveform represents the waveform generated by the signal generator as received by the DUT.Type: GrantFiled: October 1, 2018Date of Patent: July 4, 2023Assignee: Tektronix, Inc.Inventors: Yufang Li, Sicong Zhu, Hua Wei, Fan Huang, Ye Yang
-
Patent number: 11687213Abstract: A test and measurement instrument including a display and one or more processors configured to display on the display a waveform viewing area with a vertical dimension and an adjustable horizontal dimension, the test and measurement instrument configured to display one or more waveforms in the waveform viewing area, a global settings readout bar located vertically adjacent to the waveform viewing area, the global settings readout bar including a first selectable information badge, wherein when the first selectable information badge is selected, displaying a first menu originating from the first selectable information badge to modify a setting of the test and measurement instrument related to the first selectable information badge. The first selectable information badge including a warning indicator when an error or safety condition occurs.Type: GrantFiled: July 26, 2021Date of Patent: June 27, 2023Assignee: Tektronix, Inc.Inventor: Gary J. Waldo
-
Publication number: 20230184810Abstract: A test and measurement device has a port to receive a signal from a device under test (DUT), one or more analog-to-digital converters (ADC) to digitize the signal to create one or more waveforms, a display, and one or more processors configured to execute code that causes the one or more processors to: generate a histogram from the waveform, the histogram having one or more dimensions; and calculate one or more entropy values for each of the one or more dimensions. A method includes receiving a signal from a device under test (DUT) at a test and measurement device, digitizing the signal using one or more analog-to-digital converters (ADC) to produce a waveform, generating a histogram from the waveform, the histogram having one or more dimensions, and calculating one or more entropy values for each of the one or more dimensions,.Type: ApplicationFiled: November 4, 2022Publication date: June 15, 2023Applicant: Tektronix, Inc.Inventor: Kan Tan
-
Patent number: 11652494Abstract: Methods and devices for digitizing an analog repetitive signal using waveform averaging are described. An example method includes generating a discrete set of analog dither offset voltages, wherein at least two of the discrete set of analog dither offset voltages are different from each other, receiving the analog repetitive signal comprising multiple instances of a waveform, wherein the waveform has a waveform duration, generate a timing alignment to align each waveform of the analog repetitive signal and the corresponding analog dither offset voltage over the waveform duration, combining, based on the timing alignment, each waveform and the corresponding analog dither offset voltage over the waveform duration to produce an analog output signal, converting the analog output signal to a digital output signal, and producing, based on the timing alignment, a digital averaged signal based on averaging the multiple instances of the waveform in the analog output signal.Type: GrantFiled: December 17, 2021Date of Patent: May 16, 2023Assignees: LAWRENCE LIVERMORE NATIONAL SECURITY, LLC, TEKTRONIX, INC.Inventors: Brandon Walter Buckley, Ryan Douglas Muir, Daniel G. Knierim
-
Patent number: 11650225Abstract: A test and measurement system can include a data store configured to store augmentation settings for dynamically augmenting a physical testing environment and a computing device coupled to the data store. The computing device can be configured to receive an input feed from the physical testing environment, create an augmentation image based on the augmentation settings and the input feed, and output the augmented image to be overlaid on the physical testing environment to augment a user's view of the physical testing environment.Type: GrantFiled: November 30, 2021Date of Patent: May 16, 2023Assignee: Tektronix, Inc.Inventors: Tyler B. Niles, Daniel G. Knierim, Michael J. Wadzita, Joshua J. O'Brien, David Everett Burgess
-
Publication number: 20230133047Abstract: A test and measurement instrument has a user interface, one or more probes to connect to a device under test (DUT), and one or more processors configured to execute code to cause the one or more processors to: receive waveform data from the DUT after activation of the DUT by application of power from a power supply, and application of at least a first and second pulse from a source instrument, locate one or more reverse recovery regions in the waveform data, determine a reverse recovery time for the DUT from the reverse recovery region, and display a reverse recovery plot of the one or more reverse recovery regions on the user interface, the reverse recovery plot being automatically configured to display one or more of the reverse recovery regions, and including at least one characteristic for the one or more reverser recovery regions annotated on the reverse recovery plot.Type: ApplicationFiled: October 28, 2022Publication date: May 4, 2023Applicant: Tektronix, Inc.Inventors: Vivek Shivaram, Niranjan R Hegde, Parjanya Adiga, Krishna N H Sri, Tsuyoshi Miyazaki, Yogesh M. Pai, Venkatraj Melinamane
-
Publication number: 20230133743Abstract: A test and measurement instrument has a user interface, one or more probes to allow the instrument to connect to a device under test (DUT), and one or more processors configured to execute code to cause the one or more processors to: receive one or more user inputs through the user interface, at least one of the user inputs to identify at least one analysis to be performed on the DUT, receive waveform data from the DUT when the DUT is activated by application of power from a power supply, and application of one of a first and second pulse or multiple pulses from a source instrument, perform the at least one analysis on the waveform data, and display the waveform data and analysis on the user interface.Type: ApplicationFiled: October 28, 2022Publication date: May 4, 2023Applicant: Tektronix, Inc.Inventors: Vivek Shivaram, Niranjan R Hegde, Parjanya Adiga, Krishna N H Sri, Tsuyoshi Miyazaki, Yogesh M. Pai, Venkatraj Melinamane
-
Patent number: 11635452Abstract: A test and measurement probe system (100,104), including an input (106) to receive an input signal, the input signal including a low frequency (LF) and/or direct current (DC) component and an alternating current (AC) component, an extractor circuit (110), such as an AC coupling circuit or a LF and/or DC rejection circuit, configured to receive the input signal and to separate the AC component and the LF and/or DC component from the input signal, a first output (118) to output the alternating current component to the test and measurement instrument, and a second output to output the direct current component to the test and measurement instrument. In some embodiments, the LF and/or DC component is digitized prior to being output by the second output.Type: GrantFiled: July 13, 2018Date of Patent: April 25, 2023Assignee: Tektronix, Inc.Inventor: Michael J. Mende
-
Patent number: 11624781Abstract: A test and measurement device includes an input for receiving a test waveform from a Device Under Test (DUT), where the test waveform has a plurality of input level transitions, a selector structured to respectively and individually extract only those portions of the test waveform that match two or more predefined patterns of input level transitions of the test waveform, a noise compensator structured to individually determine and remove, for each of the extracted portions of the waveform, a component of a jitter measurement caused by random noise of the test and measurement device receiving the test waveform, a summer structured to produce a composite distribution of timing measurements with removed noise components from the extracted portions of the test waveform, and a jitter processor structured to determine a first noise-compensated jitter measurement of the DUT from the composite distribution. Methods of determining noise-compensated jitter measurements are also disclosed.Type: GrantFiled: March 15, 2022Date of Patent: April 11, 2023Assignee: Tektronix, Inc.Inventor: Mark L. Guenther
-
Patent number: D992437Type: GrantFiled: March 29, 2022Date of Patent: July 18, 2023Assignee: Tektronix, Inc.Inventors: David Thomas Engquist, Heather J. Vermilyea, Karl A. Rinder, Michael J. Mende, Tony Lee Tarr