5/1/2023 0 Comments Wavesurfer 10 oscilloscope![]() ![]() Save time when working with embedded controllers by adding high-performance mixed signal capability with the WaveSurfer 10. The LabNotebook tool provides a fast way to save waveforms, save setups and screen images, report results, and view offline. This all-inclusive powerful debug package enables the WaveSurfer 10 to perform advanced analysis on long captures with 10x oversampling to find the root cause of problems.Įasily accessible measurement, math and debug tools, plus a wide variety of serial data protocol decoders, and active probes ensure the WaveSurfer 10 can capture and analyze any type of waveform and simplify the debug process. With the addition of the Advanced Debug Toolkit software, the WaveSurfer 10 becomes an unparalleled debug and analysis machine. The WaveSurfer 10 provides uncompromised 1 GHz performance with up to 10 GS/s per channel and 32 Mpts of memory. Many 1 GHz oscilloscopes are available at attractive entry-point prices, however, they are often limited in sample rate, memory or features. MAUI is made to solve deep set of debug and analysis tools help identify problems and find solutions quickly. MAUI is built for simplicity time saving shortcuts and intuitive dialogs simplify setup. MAUI is designed for touch all important oscilloscope controls are accessed through the intuitive touch screen. MAUI is the most advanced oscilloscope user interface. LabNotebook Documentation and Report Generation The glitch is shown in Figure 2.MAUI Advanced User Interface - Designed for Touch, Built for Simplicity, Made to Solve The filter method is “greater than” with a filter limit of 100 ns. WaveScan is put in Measurement mode, with the measurement being rise time. In this example, WaveScan is looking for a glitch in the input signal from Figure 1. One may direct WaveScan to find specific events in the signal trace, and define what event is being sought. Users may also invoke a filter wizard, which can establish limits based on statistical distributions of the data set (such as ☑ sigma). This allows for measurement criteria to include attributes such as less than, greater than, within or outside of a limit, plus or minus a delta, plus or minus a percentage, or the rarest events. To further refine searches for signal anomalies, WaveScan’s measurement mode provides a measurement filter. Tapping any of the lines in the table changes the zoom view to the corresponding event in the signal trace. The WaveScan table shows the times at which each of the edges in the trace occurred relative to the cursor. With the Table option enabled, WaveScan displays all occurrences of the searched-for condition. Each mode can be further customized to specify the precise nature of the anomaly. Opening the Mode menu within the WaveScan dialog reveals numerous options, including searching for edges, runts, non-monotonic edges, serial or bus patterns, and measurements. In addition, WaveScan’s powerful controls enable searching for a wide range of anomalies within the signal. When using WaveScan, note that the zoomed area of the signal trace may be manipulated using the WaveSurfer 10’s zoom controls. ![]() The first edge in the signal trace is brighter, indicating highlighting, and that highlighted section appears in the WaveScan zoom view below. Note that all such edges in the input signal are highlighted in red. Edge settings are for a positive slope where the edge threshold is 50% of the signal amplitude. In Figure 1, WaveScan is still in its default state, which is edge mode. The initial setup screen for WaveScan is the starting point for deep signal exploration Using Teledyne LeCroy’s WaveSource 100 evaluation source to input a signal with a slow rise time, the screen will look similar to Figure 1. Getting Started with WaveScanĪccess the WaveScan feature from the Analysis pull-down menu. There are many search criteria to choose from, including non-monotonic edge detection, runt mode, and a large number of parametric measurement criteria, including rise time, fall time, frequency, pulse width, duty cycle, and many others. WaveScan detects anomalies within a single capture and also operates in continuous scanning mode, constantly monitoring incoming waveforms. WaveScan is an advanced search and analysis tool that provides the ability to quickly locate and characterize unusual events. Thus, the WaveSurfer 10 oscilloscope is augmented with WaveScan Search and Find technology. Teledyne LeCroy’s WaveSurfer 10 oscilloscope offers a large complement of powerful hardware triggers, but even the most advanced hardware triggers carry limitations in that they can find an event predetermined by the user. ![]()
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