SIGLENT unveiled three new series of oscilloscopes designed to improve signal fidelity, visualization and analysis. These latest additions complete our lineup of oscilloscopes, each equipped with advanced 12-bit analog-to-digital converters (ADCs) and designed for signal quality. With bandwidths ranging from 70 MHz to 4 GHz, Siglent’s high-resolution oscilloscopes now provide outstanding signal fidelity for a wide range of applications including power, EMI, frequency analysis, embedded design, and failure analysis.
Design for Signal Quality
These oscilloscopes provide a combination of low noise, gain accuracy and channel isolation that deliver capability and value to the engineer on the bench. The SDS800X HD and SDS1000X HD are all typically specified at just 70 µVrms noise at 200 MHz bandwidth. Across all of SIGLENT’s high-resolution oscilloscopes, the lower ranges are specified at 1.5% DC gain accuracy with the ranges ≥5 mV/div having a leading 0.5% accuracy. The SDS3000X HD series offers up to 60 dB of channel-to-channel isolation. From 70 MHz and up, engineers looking to solve difficult signal fidelity challenges can now get performance capabilities at an incredible value thanks to SIGLENT’s focus on signal quality and design.
Visualization
In order to maximize the benefits of high-resolution vertical acquisition, Siglent’s oscilloscopes enable simultaneous zooming in both the horizontal and vertical directions on live signals. This, coupled with the advantage of high memory depth, facilitates extensive analysis and reveals numerous insights that are typically hidden. This works closely with a broad set of ranges designed with high offset capability. This enables engineers to discover smaller signal anomalies further away from ground by focusing the ADC on smaller areas of interest and bringing these signals into focus. The combination of range and zoom capability gives an engineer unmatched power to view and analyze small signal detail. When visualizing signals in the RF space, the ability to calculate deep memory FFTs on low noise, 12-bit data provides additional methods for debugging and analyzing high speed signals.
Extensive Functionality
An additional high-resolution mode, called ERES, provides even further noise reduction and flexibility. The equivalent of up to four extra bits of resolution are available on the SDS3000X HD. Utilizing the high sample rate and deep memory, this mode further improves noise performance at the expense of bandwidth enabling engineers to optimize their oscilloscope’s performance for any application.
All models are equipped to measure more than 50 parameters, support simultaneous mathematical operations across four channels, and feature a formula editor enabling nested formulas. Additionally, all three oscilloscope series support functionalities like Mask Test, Bode Plot, Power Analysis, Search, and Serial Decode. Optionally, 16 digital channels can be added to enable analysis of mixed signal designs. Together with Siglent’s isolated signal generator SAG1021I or any SIGLENT arbitrary waveform generator, loop response test can be carried out to provide the frequency response curve of the device under test. With this the gain and phase of each frequency point can be easily obtained. Meanwhile, with the help of data list, cursor measurement, and automatic measurement functions, the Bode plot curve can be analyzed in detail.
The three new oscilloscopes all have high-definition touch screens (7 in. or 10.1 in.), advanced web control, and network drive data capabilities. The combination of an intuitive user interface with multiple one-button operations on the front panel and seamless remote access greatly improves the operating efficiency in any use mode.
Combined with our SDS2000X HD and SDS7000A series, SIGLENT has the broadest and most complete portfolio of high-resolution oscilloscopes currently available ranging from 70 MHz to 4 GHz. The focus on signal quality, visualization tools, and capabilities means that regardless of the application, SIGLENT has a performance oscilloscope to deliver signal fidelity at an incredible value.