2019-02-03T06:45:00Z

What is your primary use case for Tektronix Oscilloscopes?


How do you or your organization use this solution?

Please share with us so that your peers can learn from your experiences.

Thank you!

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2323 Answers

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Real User

Our primary use case is measuring data. It is a great software. It's quite good. I like the hardware. I like the user interface. We use Tektronix just like Apple.

2019-02-04T08:29:00Z
author avatar
Consultant

I'm currently using the 200 gigasample per second real-time scope and have a 70000 Series. The primary use case is optical product development for 56 gig PAM-4 with the ability to acquire and display at those rates. We need the 70 gigahertz bandwidth and 200 gigasample per second.

2019-02-04T08:29:00Z
author avatar
Real User

The application space that we are using the solution to target is 5G and WiFi. We are using this solution to measure WiFi signals. We are using this product to support connected devices for IoT development.

2019-02-04T08:29:00Z
author avatar
Top 20LeaderboardReal User

Our primary use case is usually for testing analysis and diagnostics, or characterization. We are using various models, power supplies, and scopes. We are measuring all classes of signal families: Power, high-speed digital, RF, and analog.

2019-02-04T08:29:00Z
author avatar
Real User

We are using it for testing. The application space that this solution targets is embedded systems, i.e., security and data storage.

2019-02-04T08:29:00Z
author avatar
Real User

The primary use case is for signaling to every waveform measurement and doing some post analysis of the waveform.

2019-02-03T07:05:00Z
author avatar
Top 5LeaderboardReal User

We use it for detailed troubleshooting, mainly in the time domain. It has very slow ports. We use the measuring functions of the scope, tracking peak-to-peak, average, and min-max. For us the application space it's targeting is mainly the HF arena. We do get into 2.4 gig on a regular basis, but not usually much higher. We predominantly measure analog signals and signals that are power-supply related. With the switching of power supplies the way it happens now, the more information the better.

2019-02-03T06:45:00Z
author avatar
Real User

We use it for testing. Usually, for testing equipment, we define the test frequency in the range of 50 gigahertz.

2019-02-03T06:45:00Z
author avatar
Real User

We mainly use it for TDR measurement. Sometimes, we convert them into a frequency domain. I'm working on a standard. They have a frequency requirements and time domain requirements. Sometimes, we will mix our equipment, but it's easier to do everything at the same time, so we measure in the time domain and convert it to the frequency domain. I'm measuring high speed differential lines.

2019-02-03T06:45:00Z
author avatar
Top 20LeaderboardReal User

I'm using it for teaching students, familiarizing them with the oscilloscope. I want them to spend some time looking at waveforms. The main signals that we measure are pretty simple sine waves. The interesting waveforms are the succession of waveforms in a simple power supply, where you have the rectified AC and then the filtered AC, so you have to measure the DC and then you have to know how to use AC coupling to show the ripple clearly. We don't utilize the full bandwidth. We get up to a couple of megahertz.

2019-02-03T06:45:00Z
author avatar
Consultant

I develop electric vehicle systems. I use the serial protocol analysis tools, as well as using it with some high voltage differential probes for measuring motor voltage and battery current. We are measuring CAN bus RS232, as well as some power signals for voltage and current.

2019-02-03T06:45:00Z
author avatar
Real User

We use a range of Tektronix scopes. We have a 33-gig, real-time scope, as well as some lower-end models that we use for general digital debugging. In addition, we do ISP/IO characterization and general analysis. We do high-speed serial designs that are embedded. We mainly focus on fiber-optic telecom gear. We measure the full gamut of signals, whether it's low-speed control IO, like Is4c, all the way up to 28G certes designs. It's a full range of signals, and as far as the applications it's enabling, that's really our entire design. We are utilizing the whole bandwidth.

2019-02-03T06:45:00Z
author avatar
Real User

I do everything with this product. I categorize and test. It can be online on the cloud in the lab, allowing us to see what the data conditions are. It has an automatic extracting level. I use most of the high end digital scopes that I like, because they have a lot of features for software user interfaces, captures, or shared transit control. The user friendliness of these boxes is very useful.

2019-02-03T06:45:00Z
author avatar
Top 20LeaderboardReal User

We use Tektronix instruments for testing and measuring instruments. We use them in a broadcasting video technology, for video and video applications, to measure CD waveforms and other testing processes. We use them in almost every testing instance for automated design and research. We measure RF, video, and sometimes audio. We are utilizing the full bandwidth of the product.

2019-02-03T06:45:00Z
author avatar
Real User

We're using the Tektronix 8300 for measurements. It's a very good machine. We typically run with a serial DSLR application. The signals we measure are pulse and we are utilizing the full bandwidth.

2019-02-03T06:45:00Z
author avatar
Real User

It's a different bandwidth, so I use it for test compliance.

2019-02-03T06:45:00Z
author avatar
Real User

We're using the MDO3000 or MDO4000 series. They're very similar. We use them for making measurements or working on testing electrical signals. We use them for general purpose. I'm working on computer motherboards. It's a different type of signal. The good thing is that it's very general-purpose. In most cases, the frequencies are up to six gig for the spectrum analyzer. For example, I measure I2C5 and USB. It cannot go into superspeed. But for superspeed I can look at the frequency. That's useful at times. At times I'm almost using the full bandwidth of the product. For example, if I want to look at a USB clock, if it's Gen 1 it would be about five gigs. Sometimes I use that to see if the clocking has an issue.

2019-02-03T06:45:00Z
author avatar
Real User

We're mostly using high-speed network analyzer models, but then we have some low-speed signal integrity work that we do as well. We use the product for circuit debugging and signal analysis. For us, the product targets high-speed serial applications. It's fantastic. We use it to support IoT development as well. I'm not personally utilizing the full bandwidth of the product but there are other people who are using it to the full bandwidth. It's working well for the stuff that's meant for high-speed.

2019-02-03T06:45:00Z
author avatar
Top 20LeaderboardReal User

The primary case would be passenger measurements and calculations for all PCIe US facilities.

2019-02-03T06:45:00Z
author avatar
Vendor

We use many models of oscilloscopes for lab tests. We use it for high-speed systems, mostly for PCIe Gen4. We utilize the full bandwidth of the product.

2019-02-03T06:45:00Z
author avatar
Top 20LeaderboardReal User

We use several models for validation of electronics designs, for particle physics, or for medical applications. It's a debugger and for prototyping. For us, the solution is mostly targeting 6G. We are measuring data transfer applications, mostly; data links and transference stability. We don't utilize the full bandwidth.

2019-02-03T06:45:00Z
author avatar
Real User

Debugging is our primary use case for the product. We use it around 500 megahertz, maybe one gigahertz, but we're not implementing any serial links. The signals we measure are clocks and data. For the most part we're measuring between FPGAs and memory chips and looking at their data buses. We're not usually utilizing the full bandwidth.

2019-02-03T06:45:00Z
author avatar
Real User

We use them for testing and measurement. We do pretty standard stuff. We come up with a circuit and we expect it to do something. We simulate it, and then we test it out in the lab. We prototype it and then use the O-scope to verify our results, and if something's going wrong we try to track down what it is. The application space we use it for is embedded systems. We do contract engineering and we pick up projects from different groups. We make an end solution for them. It's business-to-business, it's not really like end-consumer stuff. They come up with all sorts of things, like printers or reusing cameras in different ways. We're measuring analog and digital signals. SPI is the fastest thing we run with. I don't think we're using the full bandwidth.

2019-02-03T06:45:00Z
Learn what your peers think about Tektronix Oscilloscopes. Get advice and tips from experienced pros sharing their opinions. Updated: April 2020.
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