Key Features
- More Bandwidth (50 MHz)
- 2 GSa/s sampling rate
- Built-in training signals that enable users to quickly learn to capture and analyse signals.
- IoT (Internet of Things) systems design applied courseware. The 1000 X-Series oscilloscope can be used with the U3800A Internet of Things(IoT) Systems Design Applied Courseware.
- Bode plot Capability. Allows Frequency Response Analysis of the gain and phase performance of passive or active circuits (EDUX1052G only). (Optional DSOXBODE Bode plot training kit available)
- BenchVue Software allows the remote control of the oscilloscope to display and analyse multiple measurements.
Mixed Signal Oscilloscope with Serial Bus analysis (12C/UART/RS232), logic decode protocol frequency response analysis (Bode gain & phase plots). Including in-built 20MHz Waveform Generator in the InfiniiVision EDUX1052G.
This 2 Channel Oscilloscope has a fast update rate and high Sample. Plus a built-in DMM & Frequency counter and Mask Testing are standard.
The EDUX1052A mixed signal oscilloscope with built-in training signals and resource kit. Enables users to quickly capture and utilise the full features of the EDUX1052A/G.
The resource kit includes dynamic training labs a comprehensive guide and a tutorial.
Bode plots are standard on EDUX1052G as is the 20MHz Function Generator.
Bode plot Capability. Allows Frequency Response Analysis to the gain and phase performance of passive or active circuits (EDUX1052G only). (Optional DSOXBODE Bode plot training kit available)
BenchVue Software (BV0004B BenchVue) is an Oscilloscope app which is included with the Oscilloscope.
BenchVue enables control of the oscilloscope to quickly capture and annotate the screen images, record trace data and more.
Get professional-level oscilloscope functionality with industry-leading software analysis and 6-in-1 instrument integration. The 1000 X-Series gives you functionality which will save money and valuable bench space. The 1000 X-Series is a powerful protocol analyzer that enables hardware-based specialized serial communication analysis (standard). Other vendors’ oscilloscopes use software post-processing techniques that slow down the waveform and decode update rate, but the 1000 X-Series has faster decoding based on hardware technology that enhances scope usability and the probability of capturing infrequent serial communication errors. The EDUX models support I2C and UART/RS232 (standard). The DSOX models support I2C, SPI, UART/RS232, CAN and LIN (standard). (EDUX1052G, DSOX1202G, and DSOX1204G models only) The 1000 X-Series offers an integrated 20 MHz function generator with modulation capability. It’s ideal for educational or design labs where bench space and budget are at a premium. The integrated function generator provides stimulus output of sine, square, ramp, pulse, DC and noise waveforms to your device under test. Add modulation to the signal with customizable AM, FM and FSK settings. No need to buy a separate function generator when you can get one integrated into your new oscilloscope. Frequency response analysis (gain & phase Bode plots) is a critical measurement to characterize amplifiers, passive networks, and power supply feedback networks. Bode plots are also fundamental concepts that every electrical engineering student should learn. The 1000 X-Series’ frequency response analyzer capability (standard in “G” models) is the perfect tool to help students understand the gain and phase performance of passive RLC circuits and amplifiers. This capability is achieved with a gain and phase measurement versus frequency (Bode plot). Vector network analyzers (VNAs) and low-cost frequency response analyzers are typically used for these measurements, but now an easy-to-use and affordable gain and phase analysis is possible by utilizing the 1000 X-Series’ built-in WaveGen and Bode plot capability. Also available is the DSOXBODE Bode plot training kit along with a downloadable tutorial and lab guide for engineering students learning about frequency response measurements (Bode plots). The 1000 X-Series has an integrated 3-digit voltmeter (DVM) inside each oscilloscope. The voltmeter operates through probes connected to the oscilloscope channels, but its measurement is decoupled from the oscilloscope triggering system so both the DVM and triggered oscilloscope measurements can be made with the same connection. You can quickly measure AC RMS, DC, and DC RMS without configuring the oscilloscope capture. The voltmeter results are always displayed, keeping these quick characterization measurements at your fingertips. The built-in DVM comes standard in 1000 X-Series oscilloscopes. There is an integrated 5-digit frequency counter inside each oscilloscope. The frequency counter operates through probes connected to the oscilloscope channels so that both the counter and triggered oscilloscope measurements can be made with the same connection. You can quickly measure frequency without configuring the oscilloscope capture. The high-resolution frequency measurement results are always displayed, keeping these quick characterization measurements at your fingertips. The below image shows main layout for the InfiniiVision 1000 X‑Series Oscilloscopes, this maybe slightly different to the EDUX1052A model Up to 200,000 waveforms/sec update rate captures glitch easily Training Signals Fast Fourier Transforms with an Oscilloscope (FFT) What is Oscilloscope Segmented Memory? 5 Tips That Will Save You Time in Your Setup Mask Testing6-in-1 oscilloscope Integration
1 – Standard software analysis capability
2 – Hardware-based serial protocol decode and triggering
3 – WaveGen (built-in 20 MHz function generator with modulation capability).
4 – Frequency Response Analyzer (EDUX1052G, DSOX1202G, and DSOX1204G models only)
5 – Digital Voltmeter
6 – Frequency Counter
Below are videos to learn some of the features helpful for students and beginners