Analyzers
RIGOL - DSA832E-TG - Spectrum Analyzer from 9 kHz to 3.2 GHz with Tracking GeneratorFeatures:- The highest frequency: 3.2 GHz - Displayed Average Noise Level (DANL): <-161 dBm (Typical)- Phase Noise: <-98 dBc/Hz @ 10 kHz offset (Typical)- Level Measurement Uncertainty: <0.8 dB- Minimum Resolution Bandwidth (RBW): 10 Hz- EMI Filter and Quasi-Peak Detector Kit (Option)- VSWR Measurement Kit (Option)- AM/FM Demodulation Function- Various measurement functions (option)- 3.2 GHz Tracking Generator- 8 inch (800×480 pixels) high-definition display with clear, vivid, and easy-to-use graphical interface- Various interfaces such as LAN, USB Host, USB Device and GPIB (option)
KEYSIGHT - E4980A - Precision LCR Meter, 20 Hz to 2 MHz test frequency The E4980A precision LCR meter provides the best combination of accuracy, speed, and versatility for a wide range of component measurements. Offering fast measurement speed and outstanding performance at both low and high impedance ranges, the E4980A is the ultimate tool for general R&D and manufacturing test of components and materials. LAN, USB and GPIB PC connectivity enhances your design and test productivity. For materials measurements, the E4980A with the N1500A-005/006 materials measurement suite provides ease-of-measurements, from setting-up fixtures to report generation.Key features and specifications:- 20 Hz to 2 MHz test frequency, with 4-digit resolution in any range- 0.05% basic accuracy with superior measurement repeatability at low and high impedance - Built-in 40V DC Bias (Option 001)- Rdc measurements (Option 200)Additional features include:- 20 Vrms test signal (Option 001) - High-speed measurements: 5.6 ms - 201 points list sweep - Versatile PC connectivity (LAN, USB and GPIB)
Near-Field EMI Diagnostic Probe Solution Precision EMI Detection for PCB-Level Troubleshooting The Y.I.C. EMProbe is a professional near-field EMI probe solution designed for fast and accurate detection of electromagnetic emissions directly on PCBs and electronic assemblies. It enables engineers to identify emission sources, analyze coupling paths, and troubleshoot EMI issues during development and validation. Ideal for use with spectrum analyzers, oscilloscopes, or EMI receivers, the EMProbe supports efficient in-house EMI diagnostics before formal compliance testing. Product Highlights High-Sensitivity Near-Field Detection Designed for near-field electromagnetic emission measurements Suitable for radiated EMI source localization High spatial resolution for PCB-level diagnostics Optimized for close-proximity scanning Quickly detect problematic switching nodes, high-speed signal traces, and return path discontinuities. Flexible Diagnostic Applications PCB-level EMI troubleshooting Pre-compliance debugging Power electronics noise analysis High-speed digital system validation Automotive and industrial electronics testing An essential tool for rapid EMI root-cause identification. Compatibility & Integration Compatible with spectrum analyzers Usable with oscilloscopes for time-domain analysis Suitable for EMI receivers Easy integration into laboratory environments Supports both qualitative and quantitative EMI investigations depending on the connected measurement instrument. Key Capabilities at a Glance Near-field electromagnetic emission detection PCB-level hotspot identification Compact and precise probe design Suitable for radiated emission diagnostics Ideal complement to EMI pre-compliance systems Ideal For EMC / EMI engineers PCB design engineers Power electronics developers High-speed digital design teams R&D laboratories Pre-certification EMI troubleshooting The Y.I.C. EMProbe provides a practical and precise solution for identifying and analyzing EMI sources directly at PCB level — helping engineers accelerate debugging and improve EMC performance before formal certification testing. Features: Physical Resolution: 0.2mm Scanning area: 320x250 mm, 180deg Optional Extended Rail – 900x250 mm, 180deg Includes: Main Arm Y.I.C. NFP Set: up to 13GHz probes 1YR EMViewer Subscription including upgrades, support & hardware warranty.
High-Frequency E-Field Near-Field Probe Precision Electric-Field EMI Diagnostics up to 6 GHz The Y.I.C. EMProbe-E6 is a high-frequency near-field probe specifically designed for electric-field (E-field) emission detection in EMI/EMC diagnostics. With frequency coverage up to 6 GHz, it enables engineers to localize high-frequency radiated emission sources directly on PCBs and electronic assemblies. Ideal for high-speed digital systems, RF modules, and fast-switching power electronics, the EMProbe-E6 supports detailed emission analysis during development and pre-compliance troubleshooting. Product Highlights High-Frequency E-Field Detection Optimized for electric-field (E-field) measurements Frequency coverage up to 6 GHz High spatial resolution for precise hotspot localization Designed for close-proximity PCB scanning Perfect for identifying emissions from high-speed traces, connectors, IC pins, and RF components. Advanced EMI Troubleshooting PCB-level radiated emission diagnostics High-speed digital signal analysis RF module evaluation Pre-compliance emission investigation Detection of shielding and layout weaknesses The EMProbe-E6 allows rapid identification of problematic emission zones before formal chamber testing. Compatibility & Integration Compatible with spectrum analyzers Suitable for EMI receivers Usable with oscilloscopes (for time-correlated analysis) Laboratory-ready design Can be integrated into manual diagnostic workflows or used alongside automated EMI scanning systems. Key Capabilities at a Glance Electric-field near-field probe Frequency range up to 6 GHz High-resolution PCB hotspot detection Ideal for RF and high-speed digital diagnostics Compact, precision probe design Ideal For EMC / EMI engineers High-speed PCB designers RF development engineers Automotive electronics teams Industrial electronics developers Advanced R&D laboratories Features: Physical Resolution: ±0.1mm Working Radius: 450mm, J1 (±360°) J2 (±135°) J3 (±154°) J4 (±160°) J5(±173°) J6(±360°) Optional Extended Rail – 1000x450 mm, J1 (±360°) J2 (±135°) J3 (±154°) J4 (±160°) J5(±173°) J6(±360°) Includes: Main Arm Y.I.C. NFP Set: up to 13GHz probes 1YR EMViewer Subscription including upgrades, support & hardware warranty.
Fast and Precise EMI Pre-Compliance Testing for PCB Development The Y.I.C EMScanner is a professional EMI pre-compliance scanning system designed to detect and visualize electromagnetic emissions directly on printed circuit boards (PCBs). It enables engineers to identify noise sources early in the development cycle, significantly reducing time, cost, and risk before formal EMC certification. By combining near-field scanning hardware with powerful analysis software, the EMScanner provides detailed emission mapping and intuitive visualization for fast debugging and optimization. · Frequency range: 150 kHz – 8 GHz · Scanning area: L 31.6 cm x W 21.8 cm (L 12.44” x W 8.58”) · Physical Resolution: 7.5mm · 1YR EMViewer Subscription including upgrades, support & hardware warranty. Product Highlights Near-Field EMI Scanning Technology High-resolution near-field probe array Automated PCB surface scanning Detection of radiated emissions at board level Precise localization of EMI hotspots Identify problematic components, traces, and layouts before final certification testing. Early Pre-Compliance Validation Compare results against regulatory limits Evaluate design changes instantly Reduce risk of EMC test failure Shorten development cycles Ideal for improving first-pass success in accredited EMC laboratories. Advanced Visualization & Analysis Software 2D and 3D emission heat maps Frequency-domain analysis Time-domain signal evaluation Emission comparison between design revisions Automated report generation The intuitive software interface allows fast interpretation of complex EMI behavior. Flexible Integration Suitable for PCB-level testing Compact system footprint Designed for R&D laboratories and development environments Compatible with external spectrum analyzers (depending on configuration) A practical solution for in-house EMI troubleshooting and validation. Key Capabilities at a Glance Automated EMI near-field scanning High spatial resolution mapping Visual emission hotspot identification Pre-compliance validation support Software-based reporting and analysis Ideal For PCB design engineers EMC / EMI specialists R&D laboratories Electronics manufacturers Automotive and industrial electronics development High-speed digital design validation The Y.I.C EMScanner enables engineers to detect, visualize, and resolve EMI issues early in the design process — reducing compliance risk and accelerating product development with confidence.
Advanced PCB EMI Diagnostic System High-Resolution Near-Field EMI Scanning for Professional EMC Development The Y.I.C EMScanner+ is an advanced automated EMI pre-compliance scanning system designed for precise PCB-level radiated emission diagnostics. Building on the EMScanner platform, the EMScanner+ offers enhanced scanning resolution, expanded measurement capability, and improved analysis tools for demanding EMC development environments. It enables engineering teams to detect, localize, and analyze electromagnetic interference early in the design process — significantly improving first-pass success in certified EMC testing laboratories. Product Highlights High-Resolution Automated Near-Field Scanning Dense near-field probe array Automated X-Y PCB scanning High spatial emission resolution Precise EMI hotspot localization Quickly identify emission sources such as high-speed traces, return path discontinuities, switching nodes, and shielding weaknesses. Enhanced Pre-Compliance Capability Radiated emission analysis at PCB level Frequency-selective scanning Comparative design validation Improved correlation to chamber testing The EMScanner+ supports structured EMI debugging and iterative layout optimization before formal certification. Advanced Software & Visualization 2D emission heat maps 3D spectral intensity mapping Frequency-domain analysis Design revision comparison Automated measurement reports Exportable engineering data The intuitive analysis environment allows engineers to move from detection to root-cause identification efficiently. Technical Benefits for EMC Engineers Repeatable and automated scanning process Reduced dependency on external pre-test chambers Faster EMI troubleshooting cycles Quantitative spatial emission data Improved design-for-EMC workflow integration Designed for professional EMC labs and hardware development teams working on high-speed digital and power electronics systems. Key Capabilities at a Glance Automated PCB near-field emission scanning High-resolution emission mapping Pre-compliance reference validation Frequency-domain spectral analysis EMC debugging and documentation tools Ideal For EMC / EMI engineers High-speed PCB development Automotive electronics Industrial control systems Power electronics design R&D laboratories The Y.I.C EMScanner+ provides enhanced spatial emission analysis and professional-grade EMI diagnostics — helping engineering teams reduce compliance risk and accelerate time-to-market through early-stage EMC optimization. High-Speed EMC/EMI Scanner with Internal Spectrum Analyzer Frequency range: 150 kHz – 6 GHz Scanning area: L 31.6 cm x W 21.8 cm (L 12.44” x W 8.58”) Physical Resolution: 7.5mm 1YR EMViewer Subscription including upgrades, support & hardware warranty
Automated Radiated EMI Diagnostic System for PCB-Level Analysis The Y.I.C. EMScannerR is a high-resolution near-field radiated emission scanning system engineered for EMC engineers and hardware development teams requiring precise PCB-level EMI diagnostics. It provides automated spatial emission mapping to support radiated pre-compliance evaluation prior to accredited chamber testing. Designed for advanced R&D environments, the system enables quantitative and repeatable analysis of radiated emissions directly at the source. Measurement Principle The EMScannerR utilizes a high-density near-field probe array combined with automated X-Y scanning to capture electromagnetic emissions across the PCB surface. The measured near-field data is correlated to radiated emission behavior in accordance with pre-compliance methodologies. This approach enables: Localization of dominant emission sources Identification of critical traces, return paths, and high dV/dt nodes Analysis of coupling mechanisms Early-stage EMI risk assessment Technical Capabilities Automated high-resolution near-field scanning Wide frequency coverage suitable for radiated EMI diagnostics Peak, quasi-peak and average detection modes (depending on configuration) Spectral analysis across user-defined frequency bands Comparative analysis between PCB revisions Repeatable test positioning and scanning automation The system supports engineering-level EMI root cause analysis rather than simple pass/fail evaluation. Advanced Data Visualization 2D emission heat maps 3D spectral intensity mapping Frequency-selective spatial emission visualization Delta comparison between design iterations Exportable measurement data for documentation and reporting This allows precise identification of problematic layout regions, shielding weaknesses, and return current discontinuities. Application Scope High-speed digital PCB development SMPS and power electronics EMI diagnostics Automotive ECU development Industrial control systems Pre-certification EMC risk mitigation Design validation prior to CISPR / FCC chamber testing Benefits for EMC Engineers Reduces dependency on costly chamber pre-tests Enables iterative design optimization in-house Improves first-pass compliance probability Shortens EMC debugging cycles Provides objective, repeatable spatial EMI data The Y.I.C. EMScannerR is a precision diagnostic platform for engineers who require detailed spatial emission analysis and systematic EMI root-cause identification before formal compliance testing. Frequency range: 150 kHz – 8 GHzScanning area: L 31.6 cm x W 21.8 cm (L 12.44” x W 8.58”) High Resolution: 0.06mm 1YR EMViewer Subscription including upgrades, support & hardware warranty.
High-Resolution Radiated Emission Diagnostic Platform Advanced Automated PCB Radiated EMI Scanning for Professional EMC Labs The Y.I.C EMScannerR+ is a high-performance automated EMI pre-compliance scanning system engineered for precise PCB-level radiated emission diagnostics. Designed for advanced EMC development and high-speed electronic systems, the EMScannerR+ delivers enhanced spatial resolution, expanded frequency coverage, and improved correlation to formal chamber testing. It enables engineering teams to detect, localize, and quantify EMI sources early in the design cycle — reducing compliance risk and shortening time-to-market. Product Highlights Automated High-Resolution Near-Field Scanning Dense near-field probe array Automated X-Y PCB scanning system High spatial emission resolution Precise radiated EMI hotspot localization Identify emission sources such as high-speed signal lines, switching nodes, return path discontinuities, and shielding weaknesses. Enhanced Radiated Pre-Compliance Capability Frequency-selective emission scanning Radiated emission diagnostics at PCB level Improved correlation to CISPR / FCC chamber measurements Comparative analysis across design revisions The EMScannerR+ supports structured EMI root-cause analysis and systematic EMC optimization. Advanced Software & Analysis Tools 2D and 3D emission heat maps Frequency-domain spectral visualization Peak, average and advanced detection modes Design comparison tools Automated reporting and exportable engineering data The powerful software environment enables detailed emission analysis and professional documentation. Technical Advantages for EMC Engineers Repeatable automated scanning process Reduced dependency on external pre-test facilities Faster EMI troubleshooting and layout optimization Quantitative spatial emission measurement Improved first-pass compliance probability Designed for professional EMC laboratories and advanced hardware development teams. Key Capabilities at a Glance Automated PCB radiated emission scanning High-resolution spatial emission mapping Pre-compliance reference validation Advanced spectral and comparative analysis Engineering-grade reporting tools Ideal For EMC / EMI engineers High-speed digital PCB development Automotive electronics Industrial and power electronics Advanced R&D laboratories Pre-certification EMC validation The Y.I.C EMScannerR+ combines high-resolution near-field scanning with advanced radiated emission analysis — providing a powerful in-house diagnostic solution for professional EMC engineering
GW INSTEK - GSP-8180TG1.8GHz Spectrum Analyzer with Tracking Generator The GSP-8000 series, brand new general spectrum analyzers from GW Instek, features three frequency ranges, namely 8.0GHz, 3.8GHz and 1.8GHz. The series is suitable for teaching research, R&D verification, and the test requirements of radio frequency products during production and development stages. The series provides 1Hz ~ 1MHz resolution bandwidth (RBW), 10Hz ~ 3MHz video bandwidth (VBW), -104dBc/Hz phase noise, a 20dB preamplifier, and the lowest noise floor of -160dBm/Hz (typical).With respect to measurement applications, GSP-8000 has built-in Time Spec function, AM/FM signal demodulation function, channel test (Channel Power Measurement) function, Pass-Fail function, etc. The Time Spec function can simultaneously observe and display the correlation between power, frequency and time. ACPR/OCBW/CHPW tests can be used to test adjacent channels, power occupation bandwidth ratio, and channel power. The Pass-Fail function can be used to determine whether the signal is within the set range. Users can use these functions to conduct a wide range of measurement applications.GSP-8000 utilizes a 10.4-inch TFT LCD large-size screen with XGA (1024*768) resolution to allow an easy observation of test signals. For communication interface, GSP-8000 provides two interfaces: USB and LAN. Through the USB Host, users can quickly retrieve the files stored after measurements, while USB Device and LAN interface allow users to control the instrument through dedicated PC software, or use the corresponding command set to design the required program.- GSP-8000 also provides two options, namely TG and EMI Filter. For GSP-8800 customers need to decide the TG function when placing an order. Other options can be activated through the corresponding software authorization (Soft-Key), which greatly improves usage efficiency.Features: Frequency Range: 9kHz ~ 3.8GHz RBW: 1Hz ~ 1MHz in 1-3-5-10 steps VBW: 10Hz ~ 3MHz in 1-3-5-10 steps Phase Noise: -104 dBc/Hz Sensitivity: -160dBm/Hz Typical @PreAmp On Built-in AM/FM Demodulation Built-in Time Spec Function Measurement Function: ACPR/OCBW/CHPW, NdB BW, Pass-Fail, Freq. Counter, Noise Marker Built-in 20dB Preamplifier Communication Interface: LAN, USB Host/Device Display: 10.4" XGA Output (1024*768) Options: Tracking Generator for GSP-8800, EMI Filter
GW Instek - GSP-9300B - GSP-9300B, 9kHz - 3GHz, 0.025ppm stability, Sensitivity: -149dBm/Hz (@PreAmp on), RBW: 1Hz ~ 1MHzGSP-9300B is a 3GHz spectrum analyzer to meet basic RF measurement requirements. It provides the frequency stability of 0.025ppm; the aging rate of 1ppm/year; a built-in preamplifier; the base noise of -149dBm/Hz, and more than 20 measurement applications, including AM/FM modulation signal analysis, signal channel analysis, and CATV parameter test. While collocating with TG option, GSP-9300B can conduct frequency response or power linearity tests for components.For monitoring signals, GSP-9300B provides Topographic display mode, which is capable of distinguishing continuous or random signals by using color temperature. Spectrogram mode provides a time axis on spectrum display that allows users to observe signal variations based upon the reference of time. Split window mode allows different parameter settings for each display window. Additionally, GSP-9300B also provides user-friendly user interfaces such as display mode, help, multi-languages, and fast data logging, etc. Interfaces and software include USB/RS-232/LXI/MicroSD/GPIB (option)/DVI output and dedicated PC software IVI Driver.GSP-9300B, with its unique features, including auto wake-Up, sequence function, and limit line testing, is specially designed to meet the requirements of production lines. The patent design of heat conduction allows GSP-9300B to substantially reduce the warm-up time so as to expedite production processes. Options include tracking generator, carrying bag, battery module, EMI antenna set and rack accessories. The compact design of GSP-9300B satisfies either field testing or the integration of automatic testing systems.To sum up, GSP-9300B is a stable, light and all-purpose test equipment, which is the most ideal choice for the educational market, production line, and general signal monitoring applications, etc. Most important, the pricing of GSP-9300B is beyond your imagination and it is the number one choice for users with budget considerations.Features:- Frequency Range: 9kHz ~ 3 GHz- 0.025ppm Frequency Stability and 1ppm aging Rate- Built-in Preamplifier, 50dB Attenuator, and Sequence Function- RBW: 1Hz ~ 1MHz- Sensitivity: -149dBm/Hz (@PreAmp on)- Built-in AM/FM Demodulation & Analysis- Built-in P1dB point, Harmonic, Channel Power, N-dB bandwidth, OCBW, ACPR, SEM, TOI, CNR, CTB, CSO, Noise Marker, Frequency Counter, Time - Domain Power, Gated Sweep- Built-in Spectrogram, Topographic and Dual-View Display Modes- Remote Control Interface: LAN, USB, RS-232- Options: Tracking Generator, GPIB Interface
KEYSIGHT - N9321C -Basic 9 kHz to 4 GHz Spectrum Analyzer (BSA) The Keysight N932xC spectrum analyzer is a portable, swept spectrum analyzer with a maximum frequency from 4.0 GHz(N9321C) up to 20 GHz(N9324C). It can be widely used in an electronic manufacturing environment and in functional/final/QA test systems.The analyzer provides the enhanced usability as below:- Socket/Telnet remote control via USB, and LAN port.- The BSA PC Software provides further editing and data analysis functions.- The GPIB interface (option G01) makes the unit easily compatible with your GPIB test system.- Security features (Option SEC) allows user to erase all customized files and data in analyzer for security.The Keysight N932xC spectrum analyzer primary features and functions are described below:- Power Measurement Suite: The built-in one-button power measurement suite offers channel power, ACP, OBW, and TOI measurements, and contains a pass/fail testing capability with a mask for out-of-channel emissions measurement.- Precision Frequency Reference (Option PFR): The optional OCXO frequency reference provides the precise frequency measurement capability.- Spectrum Monitor (Option MNT): Provides the capability to analyze the stability of a signal over time. The analyzer can be used to monitor the signal capturing performance or intermittent event over extended periods of time.- High Sensitive Measurement (Option P04/P07/P13/P20): Includes an optional pre-amplifier to enable more sensitive measurements. This feature is a great help in analysis of low level signals.- High Accuracy Power Measurement: Supports Keysight U2000 series (option PWM) and U2020 series (option PWP) power sensors for high accuracy power measurement as a power meter.- Modulation Analysis Function: Provides optional AM/FM and ASK/FSK modulation analysis function. (AM/FM: Option-AMA ASK/FSK: Option-DMA)- Tracking Generator (Option TG4/TG7): Provides an RF source for scalar network analysis.- Baseband Channel (Option BB1 for N9321C/22C): Provides superior DANL and SSB between 9 kHz to 10 MHz. - Cable & Antenna Test (Option RM4/7; requires option TG4/7): Provides VSWR, return loss, cable loss and distance-to-fault function for reflection measurement. This option is only available for N9321C/N9322C.- Task Planner (Option TPN): Provides task planner function to integrate different measurements for test automation.- Time-gated Spectrum Analysis (Option TMG): Measures any one of several signals separated in time and exclude interfering signals.- Channel Scanner (Option SCN): Provide the channel scan function in spectrum monitoring, coverage test, and band clearance.- EMI filters and quasi-peak detector (Option EMC): Provide the EMI filters function and quasi-peak detector to make CISPR compliant EMI measurements.
Professional EMI Troubleshooting Set Precision Near-Field Detection for EMC Diagnostics The Y.I.C. Near Field Probe Kit is a professional EMI diagnostic solution designed for precise PCB-level emission detection and troubleshooting. It enables engineers to identify and localize electromagnetic interference sources directly on printed circuit boards before formal compliance testing. Engineered for use in R&D labs and EMC environments, the kit supports efficient debugging of radiated emissions in high-speed digital, RF, and power electronic systems. Product Highlights Complete E-Field and H-Field Probe Selection H-field (magnetic field) probes for current loop and switching noise detection E-field (electric field) probes for voltage-driven emission sources Multiple probe geometries for different spatial resolutions Optimized for close-proximity PCB scanning The combination of E-field and H-field probes allows comprehensive EMI source analysis. High-Frequency EMI Diagnostics PCB-level emission localization Switching power supply noise detection High-speed clock and data line investigation RF emission hotspot identification Shielding and grounding validation The probe kit supports systematic EMI root-cause analysis during development. Flexible Laboratory Integration Compatible with spectrum analyzers Suitable for EMI receivers Usable with oscilloscopes for time-domain analysis Ideal complement to Y.I.C. EMScanner systems Provides both qualitative and quantitative EMI diagnostics depending on the connected measurement instrument. Key Capabilities at a Glance Near-field electromagnetic emission detection Electric and magnetic field analysis High spatial resolution PCB scanning Compact and precise probe construction Professional-grade EMC troubleshooting tool Ideal For EMC / EMI engineers PCB design engineers Power electronics developers RF design teams Automotive electronics engineers Research and development laboratories The Y.I.C. Near Field Probe Kit delivers reliable and precise EMI source localization at PCB level — helping engineers accelerate debugging, reduce compliance risk, and improve EMC performance before chamber testing. Set of 5 Electric and Magnetic probes, 5-50mm USB Camera and mechanical arm. HXY 10A02: 10 MHz – 350 MHz HXY 20A02: 100 MHz – 1.4 GHz HZ 40A02: 1 GHz – 14 GHz HXY 60A01: 1 GHz – 13 GHz E 00A02: 1.6 GHz – 18 GHz USB 5MP x10 Optical Zoom Camera 1YR EMViewer Subscription including upgrades, support & hardware warranty.
PICO TECHNOLOGY - PicoScope 3415E - PicoScope 3415E, 4 channel, 100 MHz, 8 / 10-bit oscilloscope with probesUp to 500 MHz, 5 GS/s, USB powered PC oscilloscopes and MSOs Where power and performance meet portability- 100, 200, 350 or 500 MHz with - 5 GS/s Up to 10-bit resolution (14 bits using enhanced resolution)- 2 GS ultra-deep capture memory- 16 digital channels (on MSO models)- Function/arbitrary waveform generator included- Compact, portable and USB powered- Over 40 serial protocol decoders included as standard- Segmented memory, persistence and fast waveform updates- Advanced math, measurements, masks and digital triggering- PicoScope 7 for Windows®, macOS® & Linux® with free updates- Support for LabView®, MATLAB® and writing your own code- 5-year warranty and free technical support
PICO TECHNOLOGY - PicoScope 3415E MSO - PicoScope 3415E, 4 channel, 100 MHz, 8 / 10-bit oscilloscope, 16 digital channel with probesUp to 500 MHz, 5 GS/s, USB powered PC oscilloscopes and MSOs Where power and performance meet portability- 100, 200, 350 or 500 MHz with - 5 GS/s Up to 10-bit resolution (14 bits using enhanced resolution)- 2 GS ultra-deep capture memory- 16 digital channels (on MSO models)- Function/arbitrary waveform generator included- Compact, portable and USB powered- Over 40 serial protocol decoders included as standard- Segmented memory, persistence and fast waveform updates- Advanced math, measurements, masks and digital triggering- PicoScope 7 for Windows®, macOS® & Linux® with free updates- Support for LabView®, MATLAB® and writing your own code- 5-year warranty and free technical support
PICO TECHNOLOGY - PicoScope 3416E - PicoScope 3416E, 4 channel, 200 MHz, 8 / 10-bit oscilloscope with probesUp to 500 MHz, 5 GS/s, USB powered PC oscilloscopes and MSOs Where power and performance meet portability- 100, 200, 350 or 500 MHz with - 5 GS/s Up to 10-bit resolution (14 bits using enhanced resolution)- 2 GS ultra-deep capture memory- 16 digital channels (on MSO models)- Function/arbitrary waveform generator included- Compact, portable and USB powered- Over 40 serial protocol decoders included as standard- Segmented memory, persistence and fast waveform updates- Advanced math, measurements, masks and digital triggering- PicoScope 7 for Windows®, macOS® & Linux® with free updates- Support for LabView®, MATLAB® and writing your own code- 5-year warranty and free technical support
PICO TECHNOLOGY - PicoScope 3416E MSO - PicoScope 3416E MSO, 4 channel, 200 MHz, 8 / 10-bit oscilloscope, 16 digital channel with probesUp to 500 MHz, 5 GS/s, USB powered PC oscilloscopes and MSOs Where power and performance meet portability- 100, 200, 350 or 500 MHz with - 5 GS/s Up to 10-bit resolution (14 bits using enhanced resolution)- 2 GS ultra-deep capture memory- 16 digital channels (on MSO models)- Function/arbitrary waveform generator included- Compact, portable and USB powered- Over 40 serial protocol decoders included as standard- Segmented memory, persistence and fast waveform updates- Advanced math, measurements, masks and digital triggering- PicoScope 7 for Windows®, macOS® & Linux® with free updates- Support for LabView®, MATLAB® and writing your own code- 5-year warranty and free technical support
PICO TECHNOLOGY - PicoScope 3417E - PicoScope 3417E, 4 channel, 350 MHz, 8 / 10-bit oscilloscope with probesUp to 500 MHz, 5 GS/s, USB powered PC oscilloscopes and MSOs Where power and performance meet portability- 100, 200, 350 or 500 MHz with - 5 GS/s Up to 10-bit resolution (14 bits using enhanced resolution)- 2 GS ultra-deep capture memory- 16 digital channels (on MSO models)- Function/arbitrary waveform generator included- Compact, portable and USB powered- Over 40 serial protocol decoders included as standard- Segmented memory, persistence and fast waveform updates- Advanced math, measurements, masks and digital triggering- PicoScope 7 for Windows®, macOS® & Linux® with free updates- Support for LabView®, MATLAB® and writing your own code- 5-year warranty and free technical support
PICO TECHNOLOGY - PicoScope 3417E MSO - PicoScope 3417E MSO, 4 channel, 350 MHz, 8 / 10-bit oscilloscope with probesUp to 500 MHz, 5 GS/s, USB powered PC oscilloscopes and MSOs Where power and performance meet portability- 100, 200, 350 or 500 MHz with - 5 GS/s Up to 10-bit resolution (14 bits using enhanced resolution)- 2 GS ultra-deep capture memory- 16 digital channels (on MSO models)- Function/arbitrary waveform generator included- Compact, portable and USB powered- Over 40 serial protocol decoders included as standard- Segmented memory, persistence and fast waveform updates- Advanced math, measurements, masks and digital triggering- PicoScope 7 for Windows®, macOS® & Linux® with free updates- Support for LabView®, MATLAB® and writing your own code- 5-year warranty and free technical support
PICO TECHNOLOGY - PicoScope 3418E - PicoScope 3418E, 4 channel, 500 MHz, 8 / 10-bit oscilloscope with probesUp to 500 MHz, 5 GS/s, USB powered PC oscilloscopes and MSOs Where power and performance meet portability- 100, 200, 350 or 500 MHz with - 5 GS/s Up to 10-bit resolution (14 bits using enhanced resolution)- 2 GS ultra-deep capture memory- 16 digital channels (on MSO models)- Function/arbitrary waveform generator included- Compact, portable and USB powered- Over 40 serial protocol decoders included as standard- Segmented memory, persistence and fast waveform updates- Advanced math, measurements, masks and digital triggering- PicoScope 7 for Windows®, macOS® & Linux® with free updates- Support for LabView®, MATLAB® and writing your own code- 5-year warranty and free technical support
PICO TECHNOLOGY - PicoScope 3418E MSO - PicoScope 3418E MSO, 4 channel, 500 MHz, 8 / 10-bit oscilloscope with probesUp to 500 MHz, 5 GS/s, USB powered PC oscilloscopes and MSOs Where power and performance meet portability- 100, 200, 350 or 500 MHz with - 5 GS/s Up to 10-bit resolution (14 bits using enhanced resolution)- 2 GS ultra-deep capture memory- 16 digital channels (on MSO models)- Function/arbitrary waveform generator included- Compact, portable and USB powered- Over 40 serial protocol decoders included as standard- Segmented memory, persistence and fast waveform updates- Advanced math, measurements, masks and digital triggering- PicoScope 7 for Windows®, macOS® & Linux® with free updates- Support for LabView®, MATLAB® and writing your own code- 5-year warranty and free technical support
PICO Technology - PicoVNA 106 - PicoVNA 106 6GHz vector network analyzer
PICO TECHNOLOGIES - PQ112 -PicoVNA 108, 8.5 GHz Vector Network Analyzer [PQ112]PicoVNAs are all-new, UK-designed, professional USB-controlled, laboratory grade vector network instruments of unprecedented performance, portability and value for money. Despite their simple outline, small footprint and low cost, the instruments boast a four-receiver architecture to minimize the uncorrectable errors, delays and unreliability of internal transfer switches. Once the domain of an elite few, microwave measurement has encroached into the lives of scientists, educators, surveyors, inspectors, engineers and technicians alike. Today’s microwave measurements need to be straightforward, portable, accurate, cost-effective and easy to learn. The PicoVNA 108 delivers an exceptional dynamic range of 124 dB at 10 Hz (118 dB for the PicoVNA 106) and less than 0.006 dB RMS trace noise at its maximum operating bandwidth of 140 kHz. The instruments can also gather all four S-parameters at each frequency point in just 182 μs (PicoVNA 106) or 189 μs (PicoVNA 108) or or S11 + S21 in less than 100 μs. In other words, a 201 point 2-port .s2p Touchstone file in less than 38 ms or up to two .s1p files in less than 20 ms. Their low price makes them cost-effective as deep dynamic range scalar network analyzers or single-port vector reflectometers as well as full-function dual-port, dual-path vector network analyzers. They are affordable in the classroom, in small businesses and even in amateur workshops, yet capable of meeting the needs of all users up to the laboratory or production test technician or the metrology expert. The PicoVNAs' small size, light weight and low cost suit them to field service, installation test, OEM embedded and classroom applications. With their remote automation capability, they are also attractive in applications such as: Test automation, including multiple VNA control and measurement. Manufacturers needing to integrate a reflectometry or transmission measurement core. Inspection, test, characterization and calibration in the manufacture, distribution and service center industries: Electronics component, assembly and systems, and interface/interconnect ATE (cable, PCB and wireless); Material, geological, life-science and food sciences; tissue imaging; penetrating scan and radar. Broadband cable and harness test and matching at manufacture and installation, and fault-over-life monitoring. Antenna matching and tuning Software development kits, including code examples in MATLAB and MATLAB RF toolbox, LabVIEW, C, C# and Python, are all available for download from Pico Technology’s GitHub pages. Examples include multiple instrument addressing and control.Features:- 300 kHz to 6 or 8.5 GHz operation.- High speed of up to 5500 dual-port S-parameters per second.- Over 10000 S11 + S21 per second.- Quad RX four-receiver architecture for optimal accuracy.- Up to 124 dB dynamic range at 10 Hz bandwidth.- 0.005 dB RMS trace noise at maximum bandwidth of 140 kHz.- Half-rack, small-footprint, lightweight package.- PC-controlled over USB from a Microsoft Windows interface. - Reference plane offsetting and de-embedding.- Time-domain and port impedance transformations.- Tabular and graphic print and save formats, including Touchstone.- Save on trigger for high-speed device profiling (PicoVNA 108).- Dual-frequency mixer measurements with VSWR correction (PicoVNA 108)- P1dB, AM to PM, and standalone signal generator utilities. - Guided 8- and 12-term and absolute power calibration processes.- 6 calibration modes, including unknown through and connected DUT isolation.- Calibration and check standards with data for confident measurements.
RIGOL - PLA2216 - Logic Analyzer Probe PLA2216 for MSO5000-Series oscilloscopes. 16 Channels, ground connections. As a high-performance active logic Probe, PLA2216 connects the digital signals under test to the MSO5000 and the DHO900/S series digital oscilloscope to realize the logic analyzer function. No extra License is needed. Insert it into front interface of MSO5000 Oscilloscope, then customer can use it.