Rohde & Schwarz Oscilloscopes

Oscilloscope innovation. Measurement confidence.

Rohde & Schwarz Oscilloscopes

Oscilloscopes that fit your requirements and your budget, from top value to top performance

Oscilloscope innovation that delivers measurement confidence. Excellent signal fidelity, high acquisition rate, an innovative trigger system and a clever user interface - that’s what you get with Rohde & Schwarz, a leading manufacturer of oscilloscopes.

Match your needs with the right oscilloscope platform, probe solution and software applications. Rohde & Schwarz oscilloscope have outstanding features like e.g. digital trigger, deep memory, frequency response analysis (Bode plot), real-time de-embedding, fast update rates, and unique low noise.

From general purpose test to solutions for specific industry standards, we have you covered.

Our oscilloscope portfolio

Product list

  • Compare
    Product Name
    Bandwidth
    60 MHz to 500 MHz
    Channels
    2/4
    Sample Rate
    5 Gsample/s
    Max. Memory Depth
    500 kSample
    Optional MSO
    8 digital channels
    Starting at
  • Compare
    Product Name
    Bandwidth
    50 MHz to 300 MHz
    Channels
    2
    Sample Rate
    2 Gsample/s
    Max. Memory Depth
    2 Msample
    Optional MSO
    8 digital channels
    Starting at
  • Compare
    Product Name
    Bandwidth
    70 MHz to 300 MHz
    Channels
    2/4
    Sample Rate
    2.5 Gsample/s
    Max. Memory Depth
    20 Msample
    Optional MSO
    16 digital channels
    Starting at
  • Compare
    Product Name
    Bandwidth
    100 MHz to 1 GHz
    Channels
    2/4
    Sample Rate
    5 Gsample/s
    Max. Memory Depth
    80 Msample
    Optional MSO
    16 digital channels
    Starting at
  • Compare
    Product Name
    Bandwidth
    200 MHz to 1 GHz
    Channels
    4
    Sample Rate
    5 Gsample/s
    Max. Memory Depth
    200 Msample
    Optional MSO
    16 digital channels
    Starting at
  • Compare
    Product Name
    Bandwidth
    200 MHz to 2 GHz
    Channels
    2/4
    Sample Rate
    5 Gsample/s
    Max. Memory Depth
    200 Msample
    Optional MSO
    16 digital channels
    Starting at
  • Compare
    Product Name
    Bandwidth
    600 MHz to 6 GHz
    Channels
    2/4
    Sample Rate
    20 Gsample/s
    Max. Memory Depth
    2 Gsample
    Optional MSO
    16 digital channels
    Starting at
  • Compare
    Product Name
    Bandwidth
    4 GHz to 16 GHz
    Channels
    4
    Sample Rate
    40 Gsample/s
    Max. Memory Depth
    2 Gsample
    Optional MSO
    16 digital channels
    Starting at
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    Discontinued products

    Discontinued products

    • Product Name
      Bandwidth
      600 MHz to 4 GHz
      Channels
      2/4
      Sample Rate
      20 Gsample/s
      Max. Memory Depth
      800 Msample
      Optional MSO
      16 digital channels
      Successor
    • Product Name
      Bandwidth
      200 MHz to 1 GHz
      Channels
      2/4
      Sample Rate
      5 Gsample/s
      Max. Memory Depth
      20 Msample
      Optional MSO
      16 digital channels
      Successor
    • Product Name
      Bandwidth
      500 MHz
      Channels
      2
      Sample Rate
      5 Gsample/s
      Max. Memory Depth
      8 Msample
      Optional MSO
       
      Successor
    • Product Name
      Bandwidth
      300 MHz to 500 MHz
      Channels
      2/4
      Sample Rate
      4 Gsample/s
      Max. Memory Depth
      8 Msample
      Optional MSO
      16 digital channels
      Successor
    • Product Name
      Bandwidth
      100 MHz to 300 MHz
      Channels
      2
      Sample Rate
      2 Gsample/s
      Max. Memory Depth
      2 Msample
      Optional MSO
      8 digital channels
      Successor
    • Product Name
      Bandwidth
      50 MHz to 100 MHz
      Channels
      2
      Sample Rate
      1 Gsample/s
      Max. Memory Depth
      1 Msample
      Optional MSO
      8 digital channels
      Successor

    Digital oscilloscope FAQs

    What is an oscilloscope? How do oscilloscopes work?

    An oscilloscope measures the change in voltage level of electrical signals as time passes. An oscilloscope has a screen used as a graphical display, with voltage level shown on the vertical axis (Y) and time on the horizontal axis (X). The curve on the screen (representing the signal waveform), shows the changes in the voltage level, with time. Modern digital oscilloscopes digitize the signal voltage as a series of values (so-called samples), to benefit from the possibilities of digital signal processing. Such digitized waveform displayed on a digital oscilloscope can be analyzed for properties such as amplitude, frequency, rise time, time interval, distortion, and many others.

    Most oscilloscopes have several channels, each of which can process a separate signal in parallel. Any signal that can be converted into an electrical signal representing the current signal strength, such as sound or other vibrations, can also be measured using an oscilloscope.

    What are oscilloscopes used for?

    Modern digital oscilloscopes support a multitude of specific measurements and applications for troubleshooting circuits or checking the quality of acquired signals. Examples are, serial bus trigger and decode for debug and compliance tests (such as USB or Ethernet), jitter measurements, frequency response analysis using Bode plot functions, power electronics measurements, digital signal analysis for mixed signal designs, EMI analysis, automotive radar debugging.

    What is oscilloscope bandwidth

    Modern digital oscilloscopes support a multitude of specific measurements and applications for troubleshooting circuits or checking the quality of acquired signals. Examples are, serial bus trigger and decode for debug and compliance tests (such as USB or Ethernet), jitter measurements, frequency response analysis using Bode plot functions, power electronics measurements, digital signal analysis for mixed signal designs, EMI analysis, automotive radar debugging.

    How much oscilloscope bandwidth do I need?

    1. For non-sinusoidal waveforms like e.g. rectangular clock-signals, the oscilloscope bandwidth should be at least 3 times the clock signal fundamental frequency for decoding or debugging and 5 times the clock signal for compliance testing.

    2. For non-periodic signals the “rise time” t_r, i.e. the fastest / steepest edge of the signal, has to be considered. In this case, the required minimum oscilloscope bandwidth f_BW can be approximated using f_BW = 0.5 / f_r.

    What is sample rate?

    Sample rate is the number of samples (i.e. discrete values) a digital oscilloscope can acquire per second. The sample rate determines the horizontal resolution of your acquired waveform. Therefore, it defines how many signal details are recorded, i.e. with a small sample rate not all details of a fast-changing signal are measured.

    What is an oscilloscope trigger? How does an oscilloscope trigger work?

    The trigger setting of an oscilloscope determines the time at which the oscilloscope starts to acquire the signal. The basic concept behind the oscilloscope trigger function is that some of the incoming signal is fed into a comparator circuit. When the voltage of the waveform reaches a previously defined trigger condition (e.g. it crosses a threshold level), the data acquisition is initiated. The oscilloscope trigger function also enables repetitive signals to be displayed on the screen as a fixed waveform such as a sine wave.

    With a digital trigger this is done behind the A/D converter on the already digitized data. This results in a very low trigger jitter and trigger capability always to full oscilloscope bandwidth. In addition, it enables powerful trigger capabilities such as an adjustable trigger hysteresis.

    Which oscilloscope should I buy?

    The key decider will be the frequency of the signals to measure. The oscilloscope bandwidth will determine the maximum frequency that can be measured. The rule of thumb for the bandwidth is three to five time the frequency to be measured. In addition, the measurement scenario plays a major role to find the right oscilloscope. The Rohde & Schwarz oscilloscope portfolio includes solutions for both general purpose measurements and specific industry standards. It covers:

    • Entry level oscilloscopes with bandwidths from 50 MHz to 1 GHz to suit budgets from introductory education to professional use, including comprehensive update possibilities, such as the R&S®RTC1000.
    • General purpose bench oscilloscopes with deep memory and smart analysis options, such as frequency response analysis using Bode plots, like the R&S®RTB2000.
    • High-performance oscilloscopes with bandwidths up to 16 GHz, real-time de-embedding, fast update rates, low noise, and unique high-performance digital triggers, such as the R&S®RTP.

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