아날로그/디지털 설계 및 디버깅

정해진 일정에 따라 혁신적인 기능을 개발할 때는 로직 애널라이저 또는 프로토콜 분석기를 추적하여 식별하기 어려운 혼합 신호 문제를 찾아낼 시간이 없습니다. 하지만 고도로 통합된 새로운 장비를 사용하면 오늘날의 복잡한 임베디드 시스템을 구성하는 아날로그/디지털 신호, 시리얼 프로토콜 및 RF 신호를 일관된 보기에서 확인할 수 있습니다.

라이브러리

Title
XYZs of Signal Generators

This primer explains the basics of signal generators, including the types of generators, their applications and their contribution to a complete test and measurement solution.

Identifying Setup and Hold Violations with a Mixed Signal Oscilloscope

Mixed signal oscilloscopes (MSOs) are able to capture both analog and digital representations of signals, making them well-suited for identifying problems with setup and hold times.  Learn how to use the digital capture functions of an MSO, as well as the special setup and hold triggering feature found on most Tektronix MSOs.

Troubleshooting Ethernet Problems with your Oscilloscope

Learn the basics of the 10BASE-T and 100BASE-TX Ethernet physical layers to help you troubleshoot bus problems or related system issues.  Learn how to set up and interpret the results when using automated decoding, triggering, and search on an oscilloscope equipped with Ethernet analysis capability.

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 use automated decoding, triggering, and search on an oscilloscope equipped with I2C and SPI bus analysis capability.

Troubleshooting USB 2.0 Problems with Your Oscilloscope

Learn the basics of the USB 2.0 physical layer to troubleshoot bus problems or system issues.  Learn how to set up and interpret the results when using automated decoding, triggering, and search on an oscilloscope equipped with USB 2.0 bus analysis capability.

Characterizing and Troubleshooting Jitter with Your Oscilloscope

Gives examples of jitter analysis, from basic analysis to more advanced jitter decomposition techniques using the 5 Series Mixed Signal Oscilloscope on unmodulated clocks, spread spectrum clocks, and serial data.

Verifying Power Supply Sequencing with an 8-Channel Oscilloscope

You’ll learn the basics of checking the power-on and power-off sequence of an AC-DC power supply, how to look at a bulk supply and various point of load regulators, and how an oscilloscope with more than 4 channels can expedite the process.

Troubleshooting Multiple-bus Systems Using FlexChannel Input Channels Tech Brief

Troubleshooting embedded systems often demands more than the 2 or 4 measurement channels available on most oscilloscopes.  Using a mixed signal oscilloscope and clever application of digital channels can provide much broader system visibility.  This Tech Brief specifically describes the use of FlexChannelTM inputs available on the 5 Series MSO to address these challenges.

Debugging CAN, LIN and FlexRay Automotive Buses with an Oscilloscope

Explains the physical layer basics of CAN, LIN, and FlexRay serial buses to troubleshoot bus problems or system issues.  Learn how to use automated decoding, triggering, and search on an oscilloscope equipped with automotive bus analysis capability.

임베디드 시스템 설계의 저속 직렬 버스 디버깅

일반적인 임베디드 시스템은 켜지자마자 특수 목적을 지닌 애플리케이션을 실행하며 시작 하고 꺼질 때까지는 작동이 멈추지 않습니다. 사실상, 오늘날 설계되고 생산되는 모든 전자 장치는 임베디드 시스 템입니다. 임베디드 시스템의 예로는 다음과 같은 것이 있습니다.

Tektronix Encore is passionate about bringing you reconditioned products that…

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The AWG4000 is a 3-in-1 waveform generator, combining the functions of a AFG, an…

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Enjoy the flexibility to perform analysis tasks including timing, eye and jitter…

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