Oscilloscope Models

Whether you require high bandwidth for fast signal analysis, advanced triggering capabilities for complex signal capture, or portability for on-the-go testing, The oscilloscopes that Genetron provides are the ideal choice for engineers and technicians seeking to enhance their test and measurement capabilities.

Precision and Performance: The Oscilloscope for High-Speed Testing

Designed for high-speed testing, our oscilloscope excels in applications that demand rapid signal capture and analysis. Its unparalleled performance allows engineers to accurately observe high-frequency signals and transient events, making it indispensable for tasks such as DDR memory testing and other high-speed serial data such as PCIe and USB up to the latest revision, HDMI or DP, to name a few. Be it validating the integrity of high-speed data lines or troubleshooting complex electronic systems, this oscilloscope provides the speed and precision necessary to ensure reliable results.

Find the Right Oscilloscope for Your Needs

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WaveRunner 8000HD

The Teledyne LeCroy WaveRunner 8000HD Oscilloscope is designed for advanced multi-phase power analysis, offering 8 high-resolution input channels with 12-bit HD4096 technology and up to 2 GHz bandwidth. Its multi-channel capability makes it ideal for 3-phase power systems, enabling detailed analysis of voltage and current waveforms across all phases simultaneously. With a deep acquisition memory of up to 5 Gpts and extensive tools for protocol decoding and signal integrity analysis, it provides engineers with the precision and flexibility needed for power electronics testing, embedded systems, and automotive applications. The intuitive MAUI interface ensures streamlined operation for complex diagnostics.

Bandwidth Selection:

350 MHz, 500 MHz, 1 GHz, 2 GHz

Resolution:

12 Bits

Sampling rate:

10 GS/s

Max Memory:

5 Gpts

Channels:

8 to 16

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WavePro HD

The Teledyne LeCroy WavePro HD Oscilloscope combines high resolution and advanced features for precise signal analysis. Equipped with HD4096 technology, it delivers 12-bit resolution all the time, up to 8 GHz bandwidth, and 20 GS/s sampling rate. With an industry-leading acquisition memory of up to 5 Gpts, it allows detailed capture of long-duration signals. Its intuitive MAUI user interface, 15.6” full HD touchscreen, and extensive analysis toolsets make it ideal for debugging embedded systems, power integrity validation, and high-speed serial data testing. The WavePro HD is the ultimate solution for engineers demanding accuracy and reliability in complex system diagnostics.

Bandwidth Selection:

2.5 GHz, 4 GHz, 6 GHz, 8 GHz

Resolution:

12 Bits

Sampling rate:

10 GS/s, 20 GS/s interleaved

Max Memory:

5 Gpts

Channels:

4

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WaveSurfer 4000HD

The Teledyne LeCroy WaveSurfer 4000HD Oscilloscope is a high-definition, versatile instrument featuring 12-bit resolution with HD4096 technology for enhanced measurement accuracy and precision. With bandwidths ranging from 200 MHz to 1 GHz and up to 5 GS/s sampling rates, it supports complex debugging and signal analysis tasks. Its 12.1-inch capacitive touch screen and MAUI interface enable intuitive operation, while integrated capabilities like protocol analysis, mixed-signal support, and a built-in arbitrary waveform generator expand its functionality. Ideal for power electronics, automotive, and embedded systems applications, the WaveSurfer 4000HD delivers unmatched performance for engineers requiring precision and flexibility.

Bandwidth Selection:

200 MHz, 350 MHz, 500 MHz, 1 GHz

Resolution:

12 Bits

Sampling rate:

2.5 GS/s, 5 GS/s interleaved

Max Memory:

25 Mpts

Channels:

4

WM8KHD

WaveMaster 8000HD

Experience unmatched performance with the WaveMaster 8000HD, a high-speed oscilloscope designed for professionals who demand precision. With a bandwidth of up to 65 GHz, 12-bit resolution, and a sampling rate of 320 GS/s, this oscilloscope delivers exceptional accuracy for advanced applications like DDR memory testing. Its 8 GPts of maximum memory and multi-channel capability make it an excellent choice for engineers looking to buy an oscilloscope that supports complex signal analysis.

Bandwidth Selection:

6 GHz, 8 GHz, 13 GHz, 16 GHz, 20 GHz, 25 Ghz, 33 GHz, 50 GHz, 59 GHz, 65 GHz

Resolution:

12 Bits

Sampling rate:

Up to 320 GS/s

Max Memory:

200 Mpts/ch, Up to 8 Gpts

Channels:

4

Key Features of Our Oscilloscopes

High Bandwidth

Our oscilloscopes are equipped with high bandwidth capabilities, allowing for the capture and analysis of fast-changing signals with exceptional accuracy. This is crucial for engineers working on high-speed digital designs and RF applications, enabling them to observe fine details in their waveforms.

Advanced Triggering Options

With sophisticated triggering options, our oscilloscopes can isolate specific events in a complex signal. This feature allows users to capture elusive signals, making it easier to troubleshoot issues in designs such as DDR memory testing or high-speed serial communication, ultimately improving development efficiency.

Intuitive User Interface

Designed with user experience in mind, our oscilloscopes feature an intuitive interface that simplifies operation, even for complex measurements. Such ease of use helps engineers quickly set up tests and interpret results, reducing time spent on training and enhancing overall productivity.

Differences Between an Oscilloscope and Other Measurement Equipment

Oscilloscopes often complement other test and measurement tools, such as spectrum analyzers and logic analyzers, in various engineering applications. Here’s how they compare to other common tools:

1. Oscilloscopes vs. Spectrum Analyzers

  • Purpose: An oscilloscope displays how a signal varies over time by measuring its amplitude, making it ideal for time-domain analysis. Spectrum analyzers, on the other hand, focus on frequency-domain information by showing how signal energy is distributed across frequencies.
  • Displayed Information: Oscilloscopes provide time-related insights like rise and fall times, jitter, and phase shifts. Spectrum analyzers reveal frequency-related metrics such as signal bandwidth, carrier frequency, and harmonic content.
  • Applications: Engineers often buy oscilloscopes to visualise signal behaviour in real-time, such as for debugging circuits. Spectrum analyzers are indispensable for applications like radio frequency communication testing and electromagnetic interference analysis.

 

2. Oscilloscopes vs. Logic Analyzers

  • Signal Types: Mixed-signal oscilloscopes (MSOs) can measure both analog and digital signals, whereas logic analyzers are specifically designed to capture and analyse digital signals.
  • Channel Count: High-speed oscilloscopes typically support two to eight channels, making them ideal for smaller-scale debugging. Logic analyzers, in contrast, can handle dozens or even hundreds of digital signals simultaneously.
  • Analysis Features: Oscilloscopes offer advanced triggering options to capture intricate signal behaviours. Logic analyzers, while less complex in triggering, excel at analysing high-channel-count digital systems.

 

3. Mixed-Domain Oscilloscopes
Some high-speed oscilloscopes combine time-domain and frequency-domain capabilities, such as incorporating fast Fourier transform (FFT) functionality. These mixed-domain oscilloscopes allow engineers to perform both DDR memory test analysis and spectrum analysis using a single device.

In short, oscilloscopes, spectrum analyzers, and logic analyzers are complementary tools, each offering unique insights depending on the analysis required. By understanding their differences, engineers can choose the right combination of equipment for their specific needs.

Key Considerations for Choosing the Right Oscilloscope

Selecting the best oscilloscope requires evaluating several critical factors to ensure it aligns with your testing needs.

 

1. Bandwidth Requirements

The bandwidth of an oscilloscope determines the range of frequencies it can accurately measure. For applications like DDR memory test, a high-speed oscilloscope with sufficient bandwidth is essential to capture fast signal transitions.

 

2. Sampling Rate

A higher sampling rate ensures accurate signal reconstruction. Opt for oscilloscopes with rates at least 2.5 times your signal frequency for optimal performance.

 

3. Resolution and Accuracy

When testing intricate designs, a 12-bit resolution oscilloscope, like the HDO6000B, offers precise signal representation, ideal for critical measurements.

 

4. Memory Depth

Long memory depth is crucial for capturing extended waveforms without losing detail. Models like the WaveMaster 8000HD provide extensive memory for demanding applications.

 

5. Usability and Features

Consider ease of use, advanced features, and the compatibility of software tools for enhanced functionality.

 

Carefully weighing these factors ensures that you buy an oscilloscope that meets your performance and budgetary requirements.

Frequently Asked Questions

How does memory depth affect oscilloscope performance?

Memory depth determines how much waveform data an oscilloscope can store during a measurement session. A deeper memory allows for longer signal capture at high resolutions, making it indispensable for detailed analyses such as DDR memory tests or high-speed signal debugging.

Why are oscilloscopes ideal for DDR memory testing?

Oscilloscopes equipped with advanced trigger functions and high sampling rates are crucial for performing DDR memory tests. They enable precise capture of data and clock signals, helping to identify and troubleshoot timing errors or signal integrity issues.

How does a high-speed oscilloscope enhance testing capabilities?

A high-speed oscilloscope allows for capturing fast signals with greater accuracy, making it ideal for applications that involve rapid changes in voltage or current. This type of oscilloscope is particularly useful in testing high-frequency circuits and ensuring signal integrity.

What is a DDR memory test, and why is it important?

A DDR memory test assesses the performance and reliability of Double Data Rate (DDR) memory modules. These tests ensure that the memory operates correctly under various conditions, which is crucial for system stability in devices such as computers and smartphones.

Can I use a high-speed oscilloscope for multiple applications?

Yes, a high-speed oscilloscope can be used for various applications, including digital signal analysis, RF testing, and troubleshooting of electronic circuits. Its versatility makes it suitable for engineers working across different fields.

What types of signals can a high-speed oscilloscope capture?

A high-speed oscilloscope can capture a wide range of signals, including analogue, digital, and mixed signals. It is particularly effective for high-frequency signals, allowing engineers to analyse performance and troubleshoot issues in real time.