A method for performing verification and testing of a device under test (DUT) is described. The method includes receiving, by a processing device, inputs from a user regarding a hardware design for the DUT. The processing device presents cover group attribute suggestions to the user based on the hardware design and receives cover group information from the user corresponding to one or more cover group attributes of one or more cover groups based on the cover group attribute suggestions. Based on the cover group information, the processing device automatically generates verification code, including one or more cover group definitions.

Recording of a control command sequence related to multiple devices. Each of the multiple devices may receive user input by a user inter-face, and the received user input may be converted to appropriate control commands. Timestamp information is assigned to each control command, and the control commands of the multiple devices are merged together to a common control command sequence based on the assigned timestamp information.

The present disclosure provides a measurement application setup comprising a signal processor configured to process measurement waveform data, a display that is coupled to the signal processor and that is configured to display at least part of the measurement waveform data, a user input device that is coupled to the signal processor, wherein the signal processor is configured to acquire a user input via the user input device, the user input resembling a search waveform that is to be searched by the signal processor in the measurement waveform data. Further, the present disclosure provides a respective method.

A display method of a display apparatus is provided. The method includes: displaying, on a touch display apparatus, a first window and a second window that overlap with each other, where the first window is smaller than the second window; displaying a first image on the first window, and displaying a second image on the second window, where the second image is an image captured by the camera module in real time; displaying the first image on the second window and displaying the second image on the first window according to the first touch instruction; and displaying the first image on the first window and displaying the second image on the second window according to the second touch instruction.

A control method of a touch display apparatus applicable to a probe station is provided. The probe station includes a movable element. The movable element is a chuck stage, a camera stage, a probe platen, or a positioner. The control method of a touch display apparatus includes displaying a first window and a second window on a touch display apparatus; displaying an operation interface on the first window and displaying a real-time image on the second window; and detecting a touch instruction generated on the operation interface, where the movable element moves according to the touch instruction.

The invention relates to a method for determining the state of charge (SOC) of a chargeable battery pack (5) comprising at least one battery cell (5a, 5b, 5c), said method comprising the steps of: providing an initial state of charge value (SOC.sub.1) for said battery pack (5); estimating a battery cell voltage value (V.sub.est) using a cell model (7b) based on input values representing at least a measured voltage (V.sub.meas) of said battery pack (5); comparing said estimated battery cell voltage value (Vest) with said measured battery cell voltage value (V.sub.meas) for said at least one battery cell (5a, 5b, 5c); and determining an estimated state of charge value (SOC.sub.est) to update the state of charge (SOC) from the initial state of charge value (SOC.sub.1), based on said comparing step and by using an observer module (7a). According to the invention, the observer module (7a) comprises an influence factor, said influence factor representing errors in the state of charge (SOC) based on the parameterization of said cell model (7b). The invention also relates to an arrangement for determining the state of charge (SOC) of a battery pack (5).

The present disclosure provides an electronic tester comprising at least one test fixture that couples to a device under test, at least one test instrument coupled to at least one of the test fixtures that measures signals in the device under test, a test controller that controls the device under test while the test is performed, and an adapter module comprising a general control interface that is coupled to the test controller, and a DUT-specific communication interface that couples to the device under test to communicate with the device under test, wherein the test controller controls the device under test with generic control signals sent to the general control interface, and wherein the adapter module translates the general control signals into DUT-specific control signals and transmit the DUT-specific control signals to the device under test. Further, the present disclosure provides a respective method.

An electronic component comparison apparatus is disclosed for comparing performance characteristics of the electronic components at different operating conditions. The electronic component comparison apparatus includes a processor that receives input of a first electronic component and a first operating condition and receives input of a second electronic component and a second operating condition where the second operating condition may be different from the first operating condition. The processor estimates a first electronic component performance characteristic based at least in part on the first electronic component and the first operating condition and estimates a second electronic component performance characteristic based at least in part on the second electronic component and the second operating condition. The processor outputs the first electronic component performance characteristic and second electronic component performance characteristic via a user interface for comparison.

A method in an electronic device that may include determining, with a processor, a quantity of group markers in a data set, and determining, with the processor and based on the quantity of group markers, a suggested view from a plurality of available views, each view in the plurality of available views diagrammatically depicting at least a portion of the data set. Also, a processor-implemented method of navigating between portions of a data set may include displaying, on a touchscreen display, a diagrammatical depiction of a first portion of the data set; detecting a continuous arc gesture at the touchscreen display; determining a direction of the arc gesture; selecting a second portion of the data set based on the determined direction of the arc gesture; and displaying a diagrammatical depiction of the second portion of the data set.

A measuring device providing a display device. The operation of the measuring device can be adapted by a user. In this context, operation includes the input and output of parameters in dialogs and the switching between dialogs. The display device displays the dialogs and can display several dialogs simultaneously. The input of given values in given dialogs effects the opening and/or closing of at least one respectively associated further dialog. The content and/or the position and/or the form and/or the linking of the dialogs are adapted. The operation of the measuring device is functional during the adaptation. Exclusively the currently-displayed dialogs are adaptable.