SDS1000X-E Series Super Phosphor Oscilloscopes

  • 200 MHz bandwidth model
  • Real-time sampling rate up to 1 GSa/s
  • New generation of SPO technology
  • Waveform capture rate up to 100,000 wfm/s (normal mode), and 400,000 wfm/s(sequence mode)
  • Supports 256-level intensity grading and color display modes
  • Record length up to 14 Mpts
  • Digital trigger system

Product Overview

SIGLENT’s new SDS1000X-E Series Super Phosphor Oscilloscope is available in one bandwidth, 200 MHz. It has a maximum sample rate of 1 GSa/s and a standard record
length of 14 Mpts. For ease-of-use, the most commonly used functions can be accessed with its user-friendly front panel design.The SDS1000X-E series employs a new generation of SPO (Super Phosphor Oscilloscope) technology that provides excellent signal fidelity and performance. The system noise is also lower than similar products in the industry. It comes with a minimum vertical input range of 500 uV/div, an innovative digital trigger system with high sensitivity and low jitter, and a waveform capture rate of 400,000 frames/ sec (sequence mode).

The SDS1000X-E also employs a 256-level intensity grading display function and a color temperature display mode not found in other models in this class. Siglent’s latest oscilloscopes offering supports multiple powerful triggering modes including serial bus triggering. Decoding is standard configuration including IIC,SPI,UART,CAN,LIN. History waveform recording and sequential triggering enable extended waveform recording and analysis. Another powerful addition is the new 1 million points FFT math function that gives the SDS1000X-E very high frequency resolution when observing signal spectra. The new design also includes a hardware co-processor that delivers measurements quickly and accurately. The features and performance of Siglent’s new SDS1000X-E cannot be matched anywhere else in this price class.

Bandwidth Channels Real time
sampling rate
Capture rate Memory depth Price
SDS1204X-E 200 MHz 4 1 GSa/s 100000 wfm/s (Normal Mode),400000 wfm/s (Sequence mode) 7 Mpts/CH (not interleave mode); 14 Mpts/CH (interleave mode) $759 Buy Now
SDS1104X-E 100 MHz 4 1 GSa/s 100000 wfm/s (Normal Mode),400000 wfm/s (Sequence mode) 7 Mpts/CH (not interleave mode); 14 Mpts/CH (interleave mode) $499 Buy Now
SDS1202X-E 200 MHz 2+EXT 1 GSa/s 100000 wfm/s (Normal Mode),400000 wfm/s (Sequence mode) 14 Mpts $379 Buy Now

Key Features

  • Intelligent trigger: Edge, Slope, Pulse Width, Window, Runt, Interval, Time out (Dropout), Pattern
  • Serial bus triggering and decode, supports protocols IIC, SPI, UART, RS232, CAN, LIN (Standard)
  • Video triggers and supports HDTV
  • Low background noise, supports 500 μV / div to 10 V / div voltage scales
  • 10 types of one-button shortcuts, supports Auto Setup, Default, Cursors, Measure, Roll, History, Display/Persist, Clear Sweep, Zoom and Print
  • Segmented acquisition (Sequence) mode, dividing the maximum record length into multiple segments (up to 80,000), according to trigger conditions set by the user, with a very small dead time segment to capture the qualifying event.
  • History waveform record (History) function, the maximum recorded waveform length is 80,000 frames
  • Automatic measurement function on 38 parameters, supports Statistics, Gating measurement, Math measurement, History measurement and Ref measurement
  • 1M points FFT
  • True measurement and math to all of sample 14M points Math functions (FFT, addition, subtraction, multiplication, division, integration, differential, square root)
  • Preset key can be customized for user settings or factory “defaults”
  • Security Erase mode
  • High Speed hardware based Pass/ Fail function
  • Large 7 inch TFT-LCD display with 800 * 480 resolution
  • Multiple interface types: USB Host, USB Device (USB-TMC), LAN (VXI-11), Pass / Fail, Trigger Out
  • Supports SCPI remote control commands
  • Supports Multi-language display and embedded online help

Need more information? Call us now 877-515-5551

Product Characteristics

7 Inch TFT-LCD Display and 10 One-button Menus View more

7 Inch TFT-LCD Display and 10 One-button Menus

7-inch TFT-LCD display with 800*480 resolution

Most commonly used functions are accessible using 10 different one -button operation keys: Auto Setup, Default, Cursor, Measure, Roll, History, Persist, Clear Sweep, Zoom, Print

Record Length of Up to 14 Mpts View more

Record Length of Up to 14 Mpts

Using hardware -based Zoom technologies and record length of up to 14 Mpts, users are able to use a higher sampling rate to capture more of the signal and then quickly zoom in to focus on the area of interest.

Waveform Capture Rate Up to 400,000 wfm/s View more

Waveform Capture Rate Up to 400,000 wfm/s

With a waveform capture rate of up to 400,000 wfm/s (sequence mode), the oscilloscope can easily capture the unusual or low-probability events.

256-Level Intensity Grading and Color Temperature Display View more

256-Level Intensity Grading and Color Temperature Display

SPO display technology delivers fast refresh rates. The resulting intensity graded traces are brighter where events occur more frequently and less bright where they occur less often.

The color temperature display is similar to the intensity-graded trace in function, except that the trace occurrence is represented by different colors (color “temperature”) as opposed to changes in the intensity of one color. Red represents the most common occurrences or probabilities, while blue is used to mark points that occur least frequently.

Serial Bus Decoding Function (Standard) View more

Serial Bus Decoding Function (Standard)

SDS1000X-E displays the decoding through the events list. Bus protocol information can be quickly and intuitively displayed in a tabular format.

True Measurement to 14 Mpoints View more

True Measurement to 14 Mpoints

At any one timebase, the SDS1000X-E can measure using all 14M sample points. This ensures the accuracy of measurements while the math coprocessor decreases measurement time and increases ease-of-use.

History Waveforms (History) Mode and Segmented Acquisition (Sequence) View more

History Waveforms (History) Mode and Segmented Acquisition (Sequence)

Playback the latest triggered events using the history function. Segmented memory zcquisition will store the waveform into multiple (up to 80,000) memory segments, each segment will store triggered waveforms and timestamp each frame.

Gate and Zoom Measurement View more

Gate and Zoom Measurement

Through Gate and Zoom measurement, the user can specify an arbitrary interval of waveform data analysis and statistics. This helps avoid measurement errors that can be caused by invalid or extraneous data, greatly enhancing the measurements’ validity and flexibility.

1 Mpoints FFT View more

1 Mpoints FFT

The new math co-processor enables FFT analysis of incoming signals using up to 1M samples per waveform. This provides high frequency resolution with a fast refresh rate. The FFT function also supports a variety of window functions so that it can adapt to different spectrum measurement needs.

High Speed Hardware-Based Pass/Fail Function View more

High Speed Hardware-Based Pass/Fail Function

The SDS1000X-E utilizes a hardware-based Pass/Fail function, performing up to 40,000 Pass / Fail decisions each second. Easily generate userdefined test templates provide trace mask comparison making it suitable for long-term signal monitoring or automated production line testing.

Customizable Default Key View more

Customizable Default Key

The current parameters of oscilloscope can be preset to Default Key through the Save menu.

Complete Connectivity View more

Complete Connectivity

SDS1000X-E supports USB Host, USB Device (USB-TMC), LAN (VXI-11), Pass/Fail and Trigger Out.

Standard Accessories


Optional Accessories

  • TL_WN725N

    USB WIFI Adapter (four channel series only)

  • SDS1000X-E-16LA

    16 Channels MSO Software (four channel series only)

  • SAG1021

    Output Sine, Square, Ramp, pulse, Noise, DC and 45 built-in waveforms.The arbitrary waveforms can be accessed and edited by the EasyWave PCsoftware

  • STB-3

    Oscilloscope Demonstration Board. Provides standard (Sine, Square), pulse (PWM, Burst), and serial (I2C, SPI, UART, LIN, and CAN) outputs.

  • Current Probe

    CP4020; CP4050; CP4070; CP4070A; CP5030; CP5030A; CP5150; CP5500

  • High Voltage Probe

    Bandwidth: 40MHz; Maximum input differential voltage DC:10KV; AC(rms):7KV(sine);AC(Vpp):20KV(Pulse); attenuation ratio1:1000; Accuracy:≤3%

  • High Voltage Differential Probe

    DPB5150, DPB5150A, DPB5700, DPB5700A, DPB4080

  • Isolated channel optional accessories(ISFE)

    Add isolated inputs to your oscilloscope using passive probes. Enables floating ground differential signal analysis. Overview: The ISFE provides isolated input capabilities to any oscilloscope. Independently developed by SIGLENT, it is designed to measure signals that do not share earth ground with the oscilloscope. It is suitable for use with SIGLENT’s full range of oscilloscope products. … Continued

Support and Resources

Application Notes

How to Capture Runt Pulse With a Siglent SPO

Super Phosphor Oscilloscopes The new Super Phosphor Oscilloscope (SPO) technology supports deep memory, fast waveform refresh rate and a 256 grey scale and color temperature waveform display. The intelligent Pass / Fail function is widely used in industrial electronic detection. The technology also includes powerful intelligent triggering (window, interval, timeout, pattern, Runt). Here we will … Continued

Using EasyScope X to retrieve Average Waveform Data

Waveform averaging can be a useful method to decrease noise in a particular signal. The SIGLENT SDS series of oscilloscopes can easily collect average waveform data using EasyScope X software. NOTE: At this time, average waveform data is not able to be saved in CSV format via the front panel USB connection to a USB … Continued

Open Socket LAN connection using Python

Automating a test can dramatically increase the productivity, throughput, and accuracy of a process. Automating a setup involves connecting a computer to the test instrumentation using a standard communications bus like USB or LAN and then utilizing code entered via a software layer (like LabVIEW, .NET, Python, etc..) to sequence the specific instrument commands and … Continued

Verification of a LAN connection using Telnet

Automating a test can dramatically increase the productivity, throughput, and accuracy of a process. Automating a setup involves connecting a computer to the test instrumentation using a standard communications bus like USB or LAN and then utilizing code entered via a software layer (like LabVIEW, .NET, Python, etc..) to sequence the specific instrument commands and … Continued

Testing Open Socket Communications Using PuTTY

Many instruments include the ability to be controlled via a remote connection to a computer using an Ethernet connection. In many cases, these instruments require a special software library that can help establish and maintain the communications link between the instrument and controlling computer. This can be annoying for a few reasons… the software library … Continued