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SIGLENT Launches DPB6150 & SDP6150 Series High-Voltage Differential Probes

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SIGLENT launched two new high-voltage differential probes: DPB6150 Series and SDP6150 Series, further enhancing its product portfolio in the power electronics testing domain. Specifically engineered to tackle the challenges of precise power measurements in high-noise environments, these probes leverage exceptional dynamic range and superior common-mode noise rejection capabilities to significantly improve the accuracy and reliability of signal measurements in high-voltage, high-noise conditions. They will become indispensable tools for engineers during the development and testing of switching power supplies, frequency converters, new energy systems, and various power electronic devices.

The DPB6150 and SDP6150 Series high-voltage differential probes feature a maximum bandwidth of 400 MHz and can measure voltages up to 1500 V. With excellent common-mode noise rejection, high input impedance, and low input capacitance, they enable precise measurement of differential voltage signals and floating signals. Equipped with one-touch zero calibration and audible-visual overload alarms, these probes ensure operational safety and convenience, making them widely applicable to R&D and maintenance of switching power supplies, electronic ballasts, variable-frequency appliances, and other electrical power devices.

DPB6150 & SDP6150 Electric Specifications

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SIGLENT Introduces the SDG8000A Series: A New Platform for High-Performance RF and Arbitrary Signal Generation

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The new Arbitrary Waveform Generator Combines RF Signal Generation, IQ Modulation and Advanced Sequencing in a Single Platform

SIGLENT Technologies announced the launch of the new SDG8000A Series Arbitrary Waveform Generators, a high-performance signal generation platform designed for advanced RF, wireless communication, semiconductor and high-speed digital applications.

As modern communication and RF systems continue to increase in complexity, developers require signal sources capable of generating wideband, highly dynamic and realistic signals with exceptional fidelity. The SDG8000A Series was developed to address these requirements by combining wideband arbitrary waveform generation, direct RF signal synthesis, IQ vector signal generation and advanced sequencing capabilities in a single instrument platform.

The SDG8000A Series delivers in IQ-Mode output frequencies up to 5 GHz with sampling rates up to 12 GSa/s (interpolation) and 16-bit vertical resolution. Available in two- and four-channel configurations, the new platform provides up to 4 Gpts waveform memory per channel, enabling the generation of long and highly complex signal scenarios for modern RF and communication development.

Using SIGLENT’s TrueArb technology, arbitrary waveforms can be reproduced point-by-point while maintaining waveform detail and low jitter performance. The architecture supports narrow pulse generation down to 250 ps and provides advanced multi-pulse functionality for demanding applications in RF, semiconductor and power electronics development.

A key capability of the SDG8000A Series is its integrated RF and IQ signal generation architecture. The internal digital modulator enables direct RF output up to 5 GHz without requiring external IQ modulation hardware. Combined with the optional SigIQPro software package, the system supports signal generation for modern communication standards including 5G NR, LTE, Wi-Fi, Bluetooth and IoT applications. With modulation bandwidths up to 2 GHz, the platform is well suited for RF front-end validation, receiver testing, amplifier characterization and wireless communication development.

The new series also integrates advanced signal creation capabilities such as multi-tone, chirp and PRBS signal generation, as well as high-speed serial data output up to 1.25 Gbps. Its multi-level sequence architecture enables the creation of highly dynamic and realistic signal environments for burst communication, interference simulation and system-level testing applications.

For synchronized multi-channel systems, the SDG8000A Series provides inter-channel skew below 15 ps together with differential output modes, marker outputs, external clock synchronization and advanced triggering capabilities. These features make the platform suitable for MIMO and other synchronized RF test environments.

The SDG8000A Series further supports LAN connectivity, WebServer-based remote control and integrated SSD storage, enabling efficient integration into automated test systems and modern laboratory environments.

About Siglent:

SIGLENT TECHNOLOGIES began in 2002 with the development of its first digital oscilloscopes. Since then, the company has rapidly expanded its portfolio to cover a broad range of general-purpose electronic test and measurement instruments, including oscilloscopes, signal and function/arbitrary waveform generators, digital multimeters, laboratory power supplies, electronic DC loads, spectrum analyzers, vector network analyzers (VNAs), and RF signal generators.

With the introduction of the Performance Line Series in 2021, SIGLENT further advanced its technical capabilities to address demanding applications in high-performance measurement environments, including solutions reaching into the microwave frequency range up to 40 GHz.

Today, SIGLENT TECHNOLOGIES is a globally recognized provider of electronic test and measurement equipment, combining innovative features, strong engineering expertise, and reliable performance. Headquartered in Shenzhen, China, with international subsidiaries in the United States, Germany, Japan, and Malaysia, SIGLENT supports customers in more than 80 countries worldwide.

SIGLENT is certified according to ISO 9001:2015 and ISO 14001:2015 standards, reflecting its commitment to consistent product quality and responsible environmental management.

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Siglent Releases SigVSA Vector Signal Analysis Software

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Siglent officially launched the next-generation SigVSA Vector Signal Analysis Software, bringing professional vector signal analysis capabilities to engineers’ desktops. Compatible with both Windows and Linux operating systems, the software enables comprehensive measurements ranging from basic BPSK signals to complex wideband signals (e.g., UWB, LTE, 5G NR and 4096QAM), delivering an efficient, flexible and unified signal analysis platform for the R&D, testing and manufacturing of wireless communications.

SigVSA offers two application forms: Desktop and Embedded, supporting full-process collaboration from R&D to production. The Desktop version runs on PC, breaking the limitations of instrument hardware and providing a flexible operating environment for complex wideband signal analysis. The Embedded version is deeply integrated into Siglent oscilloscopes and spectrum analyzers (e.g., SDS7000A with the RFA option), enabling high-precision signal analysis without an external PC and simplifying test setups. Both versions share a consistent user interface and measurement engine, ensuring a seamless operational experience.

SigVSA boasts rich measurement functions, currently supports mainstream wireless communication standards including 5G NR/NR-A, 5G NR-NTN, LTE/LTE-A FDD/TDD, Wi-Fi 802.11 a/b/g/n/ac/ax/be, Bluetooth, HRP-UWB and FHSS signals. Signal analysis functions for NB-IoT, GSM, WCDMA, DVB-S2/S2X and FMCW will be launched successively. SigVSA supports synchronized multi-device acquisition and analysis, allowing remote control and waveform capture for up to 32 instruments simultaneously. Equipped with remote management capabilities, it enables one-click device configuration switching, automatic connection record saving, and configuration synchronization from the host to the analyzer. Its multi-window display and custom layout features further enhance the efficiency of parallel multi-task analysis.

SigVSA provides comprehensive local analysis capabilities, supporting direct import and analysis of raw waveform files from analyzers for flexible offline signal evaluation. Additionally, SigVSA enables remote signal analysis and debugging on a PC, allowing simultaneous control of multiple instruments to acquire and process signals, without relying on the instrument’s vector analysis options, expanding its applicability and device compatibility. With SigVSA, engineers can tackle various signal analysis challenges more freely and efficiently.


Siglent has launched attractive promotional policies and flexible licensing plans, greatly lowering the barrier to use. From June 22, 2026 to June 22, 2028, purchasing an SDS7000A oscilloscope with the RFA option will receive full-feature of Embedded SigVSA free of charge, enabling complete high-end signal analysis functionality. Furthermore, the SigVSA PC version is available for free download, with the base version including three core functions: Spectrum and IQ Analysis (SIGV-VSAA1), Digital Modulation Analysis (SIGV-VSAD1), and Custom OFDM Modulation Analysis (SIGV-VSAO1). TRY BEFORE YOU BUY! Confident in its performance, SigVSA offers 30 free trials for each function, enabling you to evaluate its powerful analysis capabilities risk-free. Start testing today to find your perfect solution.

Click To Check the Promotion Details


The release of SigVSA enriches Siglent’s signal analysis platform. Together with Siglent signal generation software SigIQPro, it forms a complete solution from signal generation to analysis, supporting engineers in accurately simulating real-world communication scenarios and enabling a smooth transition from traditional tools to a modern, scalable platform. Going forward, Siglent will continue to iterate SigVSA’s features, expand its signal analysis coverage, and provide higher-quality solutions for wireless communication testing.

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SIGLENT Launches 8 GHz Active Differential Probe for High-Speed and RF Applications

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SIGLENT introduces the SAP8000D Active Differential Probe, designed to address the challenges of high-speed signal characterization and RF testing.

Featuring 8 GHz bandwidth and ultra-low 300 fF input capacitance, the SAP8000D minimizes probe loading effects while preserving signal integrity in demanding measurement environments. The probe supports both differential and single-ended measurements and provides high common-mode rejection for improved measurement accuracy.

The SAP8000D is well suited for high-speed serial bus validation, signal integrity analysis, and high-frequency circuit debugging across applications including PCIe, DDR, USB 3.0, and Gigabit Ethernet.

To accommodate a wide range of test setups, the probe supports multiple probing methods, including solder-in, handheld, and fixture-based configurations, and is compatible with various probe accessories. This flexible design enables engineers to perform reliable measurements in complex test environments with greater confidence.

By combining high bandwidth, low input capacitance, and versatile connectivity options, the SAP8000D provides an effective solution for next-generation high-speed and RF measurement challenges.

SIGLENT Launches New 8 GHz Digital Oscilloscope!

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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.


2.5G/5G/10GBase-T Ethernet Electrical Compliance Testing

The upgraded SDS7000A series now supports full electrical compliance testing for 2.5G/5G/10GBase-T Ethernet, including critical parameters such as output drop, transmitter timing jitter, power spectral density, and MDI return loss. These features help ensure devices meet IEEE standards. Engineers can automatically generate IEEE 802.3-2018-compliant compliance test reports in HTML, XML, or PDF formats, including pass/fail status, threshold values, measured results, margin analysis, and waveform displays. This visually rich and data-driven reporting streamlines troubleshooting and product optimization.


MIPI-DPHY Compliance Testing

The SDS7000A series also supports MIPI-DPHY compliance analysis based on the CTS 1.0 specification. The oscilloscope captures HS-TX and LP-TX signaling on both data and clock lanes using its 12-bit ADC and ≥4 GHz bandwidth, combined with 5 GHz active differential probes. Eye diagram functionality is integrated for evaluating signal integrity, with automated configuration and report generation.


Real-Time Spectrum Analysis (RTSA)

Equipped with RTSA and digital down-conversion (DDC) technologies, the SDS7000A supports up to 1 GHz Real-Time analysis bandwidth. Advanced display modes include density plots, spectrum monitoring, and 3D visualizations. Compared to traditional superheterodyne spectrum analyzers, the SDS7000A offers higher bandwidth and faster signal acquisition — ideal for capturing transient events in 5G NR, 4G LTE, and Wi-Fi.


Integrated Vector Signal Analysis (SigVSA)

The SDS7000A features SigVSA vector signal analysis software, allowing direct signal analysis from DDC output without external equipment. It supports demodulation of signal types ranging from basic BPSK to complex wideband signals, such as those in 4G LTE, 5G NR, IEEE 802.11b/a/g/n/ac/ax/be standards, and 4096QAM. Both real-time and offline waveform analysis are supported, providing flexibility for laboratory and post-processing workflows.


Enhanced CAN XL Decoding Support

The SDS7000A series oscilloscopes provide comprehensive CAN protocol testing capabilities, with full support for CAN XL decoding in addition to CAN/CAN FD, enabling seamless coverage of automotive bus systems from low-speed diagnostics (10 kbps) to high-speed domain control (20 Mbps). The instrument supports both low-power and high-speed modes, making it well-suited for automotive and industrial control applications. The oscilloscope features 16 total channels (4 analog and 12 digital) for synchronized decoding and comprehensive fault analysis, including collision detection and signal reflections.

The SDS7000A also supports Wake-on-LAN (WoL), enabling users to remotely power up the instrument via Ethernet — ideal for automated test environments where physical access is limited.

With these cutting-edge features, the SDS7000A/AP oscilloscopes provide a powerful and versatile platform for engineers in data centers, wireless communications, consumer electronics, and automotive applications.

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Siglent Launches 8-Channel 1 GHz Bandwidth High-Resolution Oscilloscope

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The accelerating transformation across industries like automotive, renewable energy, and industrial automation is driven by the rise of advanced power electronics. High-efficiency inverters, the switch to wide-bandgap semiconductors, and tightly integrated control loops are pushing the limits of traditional test tools. As systems become more compact and capable, engineers must observe and correlate more signals across multiple domains with greater precision. Legacy oscilloscopes, designed for simpler tasks, often fall short. Today’s development workflows demand multi-channel instruments that offer deep insight, high signal fidelity, and application-focused analysis to meet the growing complexity of next-generation power and control systems.


2.5G/5G/10GBase-T Ethernet Electrical Compliance Testing

The upgraded SDS7000A series now supports full electrical compliance testing for 2.5G/5G/10GBase-T Ethernet, including critical parameters such as output drop, transmitter timing jitter, power spectral density, and MDI return loss. These features help ensure devices meet IEEE standards. Engineers can automatically generate IEEE 802.3-2018-compliant compliance test reports in HTML, XML, or PDF formats, including pass/fail status, threshold values, measured results, margin analysis, and waveform displays. This visually rich and data-driven reporting streamlines troubleshooting and product optimization.


MIPI-DPHY Compliance Testing

The SDS7000A series also supports MIPI-DPHY compliance analysis based on the CTS 1.0 specification. The oscilloscope captures HS-TX and LP-TX signaling on both data and clock lanes using its 12-bit ADC and ≥4 GHz bandwidth, combined with 5 GHz active differential probes. Eye diagram functionality is integrated for evaluating signal integrity, with automated configuration and report generation.


Real-Time Spectrum Analysis (RTSA)

Equipped with RTSA and digital down-conversion (DDC) technologies, the SDS7000A supports up to 1 GHz Real-Time analysis bandwidth. Advanced display modes include density plots, spectrum monitoring, and 3D visualizations. Compared to traditional superheterodyne spectrum analyzers, the SDS7000A offers higher bandwidth and faster signal acquisition — ideal for capturing transient events in 5G NR, 4G LTE, and Wi-Fi.


Integrated Vector Signal Analysis (SigVSA)

The SDS7000A features SigVSA vector signal analysis software, allowing direct signal analysis from DDC output without external equipment. It supports demodulation of signal types ranging from basic BPSK to complex wideband signals, such as those in 4G LTE, 5G NR, IEEE 802.11b/a/g/n/ac/ax/be standards, and 4096QAM. Both real-time and offline waveform analysis are supported, providing flexibility for laboratory and post-processing workflows.


Enhanced CAN XL Decoding Support

The SDS7000A series oscilloscopes provide comprehensive CAN protocol testing capabilities, with full support for CAN XL decoding in addition to CAN/CAN FD, enabling seamless coverage of automotive bus systems from low-speed diagnostics (10 kbps) to high-speed domain control (20 Mbps). The instrument supports both low-power and high-speed modes, making it well-suited for automotive and industrial control applications. The oscilloscope features 16 total channels (4 analog and 12 digital) for synchronized decoding and comprehensive fault analysis, including collision detection and signal reflections.

The SDS7000A also supports Wake-on-LAN (WoL), enabling users to remotely power up the instrument via Ethernet — ideal for automated test environments where physical access is limited.

With these cutting-edge features, the SDS7000A/AP oscilloscopes provide a powerful and versatile platform for engineers in data centers, wireless communications, consumer electronics, and automotive applications.

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SIGLENT Releases ODP6000B Series Optically Isolated Voltage Probes

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Driven by the increasing demand for highly reliable test equipment in fields such as semiconductors, new energy systems, and materials characterization, SIGLENT introduces the ODP6000B Series Optically Isolated Voltage Probes. The ODP6000B Series provides reliable solutions for testing floating high-voltage signals, third-generation semiconductor power devices, and new energy inverters.


High Bandwidth

Featuring bandwidth options of 500 MHz and 1 GHz, the ODP6000B Series utilizes advanced fiber optic transmission technology. Through electrical-optical-electrical conversion, it achieves complete electrical isolation between signal input and output, delivering ultra-high Common-Mode Rejection Ratio (CMRR). This makes it exceptionally suitable for testing switch-mode power supplies, motor drives, new energy inverters, and variable frequency drives. Particularly in high-frequency circuit testing involving third-generation semiconductors like Gallium Nitride (GaN) and Silicon Carbide (SiC), the ODP6000B excels at suppressing high-frequency common-mode noise, enabling precise measurement results.

High Performance

Compared to conventional probes, optically isolated probes offer superior CMRR and isolation voltage. They achieve an outstanding CMRR of up to 160 dB when measuring low-frequency DC signals, and maintain a robust 70 dB CMRR even at 1 GHz. This ensures effective suppression of common-mode interference across both low and high frequencies. Additionally, these probes provide an isolation voltage rating as high as ±60 kV, enabling safe electrical isolation during floating high-voltage signal testing and protecting both engineers and test equipment from hazardous high-voltage circuits.

Wide Measurement Range

When testing high-voltage or high-power circuits, the ODP6000B Series, combined with various attenuators, can measure a wide range of voltage signals from millivolts to kilovolts without compromising signal-to-noise ratio. This exceptional versatility provides an efficient solution for testing wide-bandgap (WBG) semiconductor circuits.


ODP6000B Series Electrical Specifications

Company News

Compact All-in-One Handheld Signal Analyzer for 5G/LTE Field Testing

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Siglent introduces the SHA860A series, a next-generation handheld signal analyzer designed to revolutionize 5G/LTE field testing. Combining spectrum analysis, vector network analysis, and cable/antenna testing into a single portable platform, the SHA860A delivers unparalleled versatility for base station deployment, maintenance, and on-site troubleshooting. Key specifications include a 9 kHz to 7.5 GHz frequency range (usable from 5 kHz), 110 MHz real-time analysis bandwidth, and advanced capabilities such as 5G NR/LTE OTA testing, real-time spectrum analysis, pulse analysis, IQ data acquisition, and GPS-synchronized indoor/outdoor mapping and so on.


5G NR OTA Measurement

During 5G base station deployment, operators require precise validation of network quality and beam performance. The SHA860A’s 5G NR OTA mode demodulates signals to extract key parameters, including frequency, physical cell identity (PCI), SSB index, frequency error, and error vector magnitude (EVM) for the SSB portion, visualized via constellation diagrams. This functionality is vital for optimizing 5G Non-Standalone (NSA) deployments, ensuring seamless coordination between LTE and 5G networks.


LTE FDD/TDD OTA Measurement

The LTE OTA testing feature provides comprehensive demodulation metrics such as PCI, sector ID, cell group, frequency error, time offset, synchronization status, and power levels (PSS/SSS/CRS/PBCH), alongside EVM measurements and constellation diagrams. By analyzing signal quality, channel performance, and interference across multiple cells, technicians can implement targeted strategies to enhance network efficiency and user experience.


Real-Time Spectrum Analysis

With a 110 MHz real-time bandwidth and 300,000 FFT/s processing speed, the SHA860A captures transient signals as short as 3.51 µs at 100% Probability of Intercept (POI). Advanced tools like frequency mask triggering (FMT), Density, 3D, Spectrogram, and Power vs. Time (PvT) displays enable multi-dimensional analysis of complex signals, ideal for interference hunting and spectrum monitoring in dynamic 5G environments.


Cable and Antenna Test

Component faults compromise base station performance, leading to coverage gaps and signal strength degradation. The SHA860A streamlines maintenance with rapid single-port cable loss, return/insertion loss, VSWR, and distance-to-fault measurements. An optional upgrade adds 1-Path 2-Port vector network analyzer functionality, supporting S11/S21 testing, Smith chart displays, and a remarkable 114 dB dynamic range for precise amplitude/phase response analysis.


Pulse Profile Analysis

The pulse analysis function featuring 10,001 measurement points to evaluate power, pulse transitions, and signal characteristics using multiple detection modes (positive/negative peak, sample, average, and conventional). This ensures rigorous validation of RF device performance in real-world conditions.


Indoor/Outdoor Mapping

Beyond base station testing, identifying 5G/LTE coverage in specific areas is crucial. The indoor/outdoor mapping feature enables technicians to locate base stations, track antenna orientation/height, and identify weak coverage or high-interference zones. With data logging, playback, and ±0.01 ppm accuracy post-GPS lock, it simplifies network optimization in both indoor and outdoor environments.


IQ Data Acquisition

Signal and spectrum analyzer with IQ data acquisition function is a common signal acquisition tool. Equipped with 1 GB RAM, 300 MHz sample rate, and 110 MHz bandwidth, the SHA860A provides a powerful combination of specifications, functions and portability for users collecting data in the field environment. Users can transmit and store IQ data via USB or LAN for offline analysis, so as to reproduce signals and visualize spectrum details with unmatched clarity.

The Siglent SHA860A consolidates critical 5G/LTE testing tools into a single handheld device, empowering technicians to validate beam performance, detect interference, and optimize networks with precision. Its excellent real-time bandwidth, GPS mapping, and comprehensive OTA capabilities accelerate deployments while ensuring reliable service delivery, enabling technicians to tackle complex field challenges with unmatched precision and convenience.

News Center

Siglent launches SDM4065A 6½-Digit Digital Multimeter with enhanced precision and speed

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In the automatic production lines where speed drives profitability, the Digital Multimeter as core equipment in automated testing directly impacts system efficiency. On September 25, 2025, Siglent launches the SDM4065A series high-speed 6½-digit Digital multimeters. With 2,200,000 counts, fast reading rate of 50,000 readings/s, minimum sampling interval of 20 µs, 11 measurement functions, and a touchscreen with intuitive interface, the SDM4000A not only elevates individual product testing efficiency but also enhances overall production line performance in accuracy-driven automated environments.


True 6½-digit precision

SDM4065A offers 6½-digit resolution (2,200,000 counts) with a full-scale display range from -2,199,999 to +2,199,999. Its exceptional performance ensures precise capture of subtle current variations and large voltage fluctuations.


High speed Measurement

The SDM4065A series supports up to 50,000 readings/s. Both models offer adjustable measurement speeds (fast/medium/slow). For the SDM4065A, its sampling interval can be precisely configured from 0.001 PLC to 1,000 PLC (Power Line Cycle), enabling superior performance in high-speed data acquisition and micro-variation monitoring—ideal for applications requiring precise measurements.


Three acquisition modes

Continuous Sampling Mode

Constant-rate sampling enables real-time monitoring.

Data Logging Function

Supports continuous data logging for up to 100 hours with 2GB internal storage, ideal for long-term trend analysis.

Digitizer Function

Outperforms oscilloscopes and spectrum analyzers in high-precision, low-frequency sampling, particularly suitable for audio signal digitization.


Advanced Math Functions

SDM4065A supports five operations: statistics, limits, dBm, dB, and relative measurements. It rapidly calculates max/min, average, peak-to-peak, standard deviation, and sample count, while enabling pass/fail testing via preset thresholds. Voltage-to-power conversion, dB-based relative measurements, and deviation analysis further enhance versatility.


Four Display Modes

SDM4065A offers four modes: Numeric for instant clarity, Histogram for data distribution analysis, Trend Chart for dynamic data pattern observation and trend prediction, and Bar Chart for cross-condition comparisons and rapid analysis of variations and patterns under different conditions, empowering users to visualize and analyze data with deeper insights.

Digital display

Histogram

Trend chart

Bar chart


Probe Hold

After the readings stabilize, the multimeter buzzer sounds and displays the results, automatically retains the latest eight readings for users to compare and refer to. Users can access historical data at any time for in-depth analysis of equipment performance or parameter changes, and the displayed data can be cleared with a single click.


Storage & Recall

The SDM4065A series features excellent storage and retrieval capabilities. The SDM4065A series can save up to 2 million readings. Users can easily manage instrument parameter files in the internal storage area and on external USB storage devices. It supports the storage of various types of files such as reading points, pictures, CSV/XML files. Users can perform operations like creating folders, saving screen captures, copying, renaming, and deleting files, enabling efficient data management.


Remote Control & Programming

SDM4065A integrates USB Host, USB Device, and LAN interfaces, with an optional USB-GPIB module. It supports standard SCPI remote control commands, PC-based software, and compatibility with the latest mainstream multimeter command sets. Its embedded web server enables direct remote control and programming via a browser, fulfilling diverse communication and automation needs.

Web control

The SDM4065A high-speed 6½-digit multimeters strike a balance between speed, accuracy, and stability. Whether applied in automated control system testing, power engineering, electronics manufacturing and repair, telecommunications and networking, or scientific research and education, the SDM4065A series is dedicated to delivering a new measurement experience for engineers, enabling more precise and efficient testing.

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SIGLENT Expands RF Test Capabilities with the New SSG6082A-V Vector Signal Generator

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With the ongoing advancement of wireless communication, the introduction of new mobile network standards, and the growing adoption of IoT and communication technologies, the demand for high-performance RF solutions continues to rise. Developers and engineers face increasingly stringent requirements, particularly in generating complex modulated signals that are essential for modern communication and IoT applications. To meet these growing demands, Siglent is expanding its portfolio with a new high-performance vector signal generator.

On March 12, 2025, SIGLENT introduced the SSG6082A-V Vector Signal Generator, a high-performance instrument with an output frequency range of 9 kHz to 8 GHz and a 500 MHz bandwidth IQ baseband source, significantly enhancing its portfolio of vector signal solutions. Concurrently, a firmware update for the PC Software SigIQPro will be released in synchronization with the SSG6082A-V, introducing expanded support for WiFi, 5G NR, LTE, and other mainstream communication protocols to streamline the generation of sophisticated signals.


Expanded Output Frequency and Power Range

With a maximum frequency of 8 GHz and a peak output level of 30 dBm for CW signals, the new generator serves as both a high-precision RF source and a carrier for modulated signals. Its wide frequency and power range meet the demanding testing requirements of many modern communication systems.

Wider Modulation Bandwidth and Superior Signal Quality

As data exchange rates between devices continue to rise, broadband communication technologies are becoming increasingly prevalent. The SSG6082A-V offers a modulation bandwidth of up to 1 GHz and excellent in-band response, thanks to precise in-factory calibration, making it suitable for a wide range of communication test scenarios.

The SSG6000A-V series features ultra-low phase noise, reaching -132 dBc/Hz at a 10 kHz offset for a 1 GHz signal. Higher spectral purity reduces test errors, enhancing the accuracy and reliability of measurement results. In wireless communication, low phase noise signals help minimize bit error rates (BER), improving communication stability and reliability.

Phase noise at different carrier frequencies

For modulated signals, the SSG6082A-V delivers an excellent adjacent channel power ratio (ACPR), ensuring high-quality signal generation while maintaining the target output power. This minimizes neighboring channel interference during multi-channel testing, enabling more accurate simulation of real-world communication environments.

5G NR Test Mode TM1.1 100M bandwidth ACPR


More Accurate Transmitter Simulation

The SSG6082A-V supports automatic amplitude, frequency, and phase compensation based on the S2P file of the test system. This compensation minimizes phase fluctuations and phase noise while flattening the signal amplitude across the entire frequency range, ensuring consistent signal levels at different frequencies. With enhanced system compatibility, the SSG6082A-V accommodates a broader range of applications, delivering precise and efficient test system performance.

Signal Pre-Distortion Capabilities


Outlook: More Protocols with SigIQPro and Comprehensive Testing Capabilities

As mobile devices continue to evolve with enhanced functionality, the demand for higher data rates and wider coverage is driving the need for more complex signal generation to validate device performance. SigIQPro is an essential tool for communication testing, designed to generate high-quality, complex modulated and protocol signals. The upcoming upgrade of SigIQPro, synchronized for release with the SSG6082A-V, will expand its capabilities to include Bluetooth, IoT, GSM/EDGE, WCDMA/HSPA+, LTE FDD/TDD, and 5G NR signal generation, along with broadband signals such as WLAN 802.11 b/g/a/n/ac/ax/be and OFDM.