Product Releases
SIGLENT Launches New 8 GHz Digital Oscilloscope!
2024-10-30
Views 317
July 10, 2025 — SIGLENT has unveiled the enhanced SDS7000A/AP models, building on the success of its SDS7000A high-resolution digital oscilloscope series. The new models now feature bandwidth up to 8 GHz, a high-resolution 12-bit ADC, maximum 20 GSa/s sampling rate per channel, and a maximum memory depth of 2 Gpts/ch. New capabilities include 2.5G/5G/10GBase-T Ethernet Electrical Compliance Testing, MIPI-DPHY protocol analysis, Real-Time Spectrum Analysis (RTSA), Digital Down-Conversion (DDC), and upgraded CAN XL decoding.
Application Notes
Precise Characterization and Measurement of Material Dielectric Properties
2024-10-23
Views 26
Firmware
SPD4000X Firmware Update
2024-10-14
Views 26
Service & Support
SSG3000X Programming Guide
2024-10-11
Views 26
User Manual
SDS2000X Plus User Manual
2024-10-09
Views 26
Programming Guide
SHS800X&SHS1000X Programming Guide
2024-09-26
Views 26
User Manual
SHS800X&SHS1000X User Manual
2024-09-26
Views 26
Quick Start
SHS800X&1000X Quick Start
2024-09-26
Views 26
RF Education Kit
2024-09-14
Views 26
Cases
RF Education Kit
For beginners entering the radio frequency (RF) world, the primary learning objectives involve understanding the frequency domain characteristics of RF signals and familiarizing themselves with common RF component behaviors. Conventional RF testing instruments and instructional tools for device testing often suffer from limited functionality and cumbersome operation, causing difficulties for beginners attempting to test devices. While designing a customized RF solution suite is feasible, the high cost makes it unaffordable for most students. SIGLENT’s affordable and user-friendly RF education kit provides an accessible option for students and researchers to explore RF signals and gain hands-on experience with common RF circuit modules.
Scenarios
Analysis of RF Signals in the Frequency Domain
Analysis of RF Module Behaviors
Solution
The SVA-TB01 RF education kit consists of multiple RF modules, which provide various features and are easy to operate. It helps students quickly acquire knowledge about RF signals and characteristics of common RF modules, serving as a great tool for students and researchers exploring the RF domain.
Related Products
More Solutions
Digital Circuit Testing
2024-09-14
Views 26
Cases
Digital Circuit Testing
As a critical step in digital circuit design, digital circuit testing verifies whether circuits function as expected. Oscilloscopes are usually used to examine output signals in digital circuit testing for the purpose of troubleshooting and circuit performance and parameter verification. With varying bandwidths and sampling rates, different oscilloscopes provide tailored optimal measurement solutions for diverse types of circuits. This page describes how to use an oscilloscope for debugging a typical digital circuit.
Scenarios
Circuit Functionality Verification
Design Flaw Identification
Circuit Design Optimization
Solution
SIGLENT Technologies oscilloscopes offer features that prove invaluable for digital circuit testing, particularly models with high bandwidth and high sample rates that maintain signal fidelity even when measuring high-frequency signals. These instruments excel at capturing high-speed transient signals, enabling fast and precise fault detection and localization. They support the capture and analysis of abnormal and specific events, simultaneous multi-channel digital signal measurements, parameter analysis of digital signals, serial bus decoding, and evaluation of jitter characteristics in digital communication systems, thus improving overall system performance. By properly configuring oscilloscope parameters and utilizing advanced features, engineers can significantly enhance both the efficiency and accuracy of digital circuit testing.
