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Entwickeln und Testen analoger/digitaler Elemente

Analog Digital Design Debug

Wenn Ihre Innovation einem Terminplan unterliegt, ist keine Zeit verfügbar, um einen Logikanalysator oder Protokolltester aufzustöbern und nach schwer feststellbaren Mixed-Signal-Problemen zu suchen. Zum Glück sind jetzt neue hochintegrierte Geräte verfügbar, die es ermöglichen, Ihnen einen kohärenten Einblick in die analogen und digitalen Signale, seriellen Protokolle und HF-Signale der komplexen eingebetteten Systeme von heute zu vermitteln.

Tipps zur digitalen Fehlerbehebung mit Mixed-Signal- oder Mixed-Domain-Oszilloskopen

Dieser Anwendungshinweis bietet nützliche Informationen für die mit einem Mixed-Signal-Oszilloskop (MSO) durchgeführte Verifizierung und Fehlerbehebung von komplexen Schaltungen, die analoge und digitale Signale sowie mehrere Busse enthalten können.

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Fehlerbehebung bei seriellen Bussen in Embedded System Designs

Erleben Sie, wie mithilfe der Protokolltriggerung und den Funktionen für Protokolldekodierung und Suche der beliebten Oszilloskope der MSO- und DPO-Serie Integrationsprobleme bei seriellen Bussen und Fehlerbehebungsprobleme bei vielen Bussen, wie I2C, SPI , USB, RS-232/422/485/UART, CAN, LIN, FlexRay, Ethernet und I2S/LJ/RJ/TDM, gelöst werden können.

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XYZs Signal Generator Primer (Einführungshandbuch „XYZ der Signalgeneratoren“

Dieses Einführungshandbuch erläutert die Grundlagen der Signalgeneratoren, einschließlich der vielen verschiedenen Generatortypen, deren Anwendungsbereiche sowie deren Beitrag zu einer kompletten Prüf- und Messlösung.

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Empfohlene Geräte

Title
XYZs of Signal Generators
The Signal Generator, or Signal Source, is the stimulus source that pairs with an acquisition instrument like an oscilloscope to create the two elements of a complete measurement solution. In its …
Troubleshooting Multiple-bus Systems Using FlexChannel Input Channels Tech Brief
Troubleshooting embedded systems with multiple processors, sensors, actuators, communications and human interfaces, often demands more than the 2 or 4 measurement channels available on most …
Identifying Setup and Hold Violations with a Mixed Signal Oscilloscope
Problems with setup and hold timing are among the most challenging to identify.  Mixed signal oscilloscopes (MSOs) are able to capture both analog and digital representations of signals, making them …
Debugging CAN, LIN and FlexRay Automotive Buses with an Oscilloscope
Explains the physical layer basics of common automotive buses - CAN, LIN, and FlexRay - to enable you to troubleshoot bus problems or system issues.  Learn how to set up and interpret the results when …
Debug and Validation of High Performance Mixed Signal Designs
High performance mixed analog and digital systems continue to evolve with increasing performance and complexity. Designers need to quickly find and analyze a wide range of problems from signal …
Debugging a Mixed Signal Design with a Tektronix Mixed Signal Oscilloscope
A typical embedded systems design may incorporate various analog signals, high-speed and low-speed serial digital communication, microprocessor buses and more. This application note walks you through …
Debugging Serial Buses in Embedded System Designs
Find out how the protocol trigger, decode and search capabilities of the popular MSO and DPO Series oscilloscopes solve serial bus integration and debug challenges of many buses such as I2C, SPI , USB …
Verifying Power Supply Sequencing with an 8-Channel Oscilloscope
Most systems use several sets of power rails and verifying proper power supply sequencing requires multiple oscilloscope input channels.  You’ll learn the basics of checking the power-on and power-off …
Characterizing and Troubleshooting Jitter with Your Oscilloscope
Gives examples of jitter analysis, from basic analysis using frequency and Time Interval Error (TIE) measurements, to more advanced jitter decomposition techniques to help isolate the sources of …
Measuring Digital Clock Stability and Jitter with an Oscilloscope
This application note explains how to use oscilloscope measurements to quantify the performance of any digital clock, including processor clocks and communications clocks. It briefly covers amplitude …
Troubleshooting Ethernet Problems with your Oscilloscope
This Application Note: •     Gives a brief orientation on the physical layer and packet structure of Ethernet, with a goal of providing just enough detail to help with …
Troubleshooting Analog to Digital Converter Offset Using a Mixed Signal Oscilloscope
This application note gives a procedure for performing quick checks on an Analog to Digital Converter (ADC) system gain, offset and linearity.  The technique uses a ramp signal from a function …
Troubleshooting USB 2.0 Problems with Your Oscilloscope
Learn the basics of the USB 2.0 physical layer to help you troubleshoot bus problems or system issues.  Learn how to set up and interpret the results when using automated decoding, triggering, and …
Digital Debugging Tips Using a Mixed Signal Oscilloscope
This application note provided useful information for verifying and debugging with a Mixed Signal Oscilloscope (MSO) complex designs that may include analog and digital signals and multiple buses.
How to Troubleshoot System Problems Using an Oscilloscope with I2C and SPI Decoding
Learn about the physical layers of the most common interchip buses - I2C and SPI - to enable you to troubleshoot bus problems or system issues.  Learn how to set up and interpret the results when you …