Our Video

Leak Detection

Agilent - Helium Probe Demonstration at Covanta SEMASS Facility (Power Plant)

This video demonstrates the setup and use of the Agilent Harsh Environment (HE) Probe used with the VS Series Leak Detector at a power plant.

How to Leak Check a Vacuum Furnace Using an Agilent HLD Helium Leak Detector

Agilent Vacuum Application Engineer demonstrates the use of the HLD MR15 to leak check an Ipsen vacuum furnace. Ipsen offers the HLD as an option to its customers to help them optimize performance of the furnace.

How to Perform a Leak Check with a Helium Mass Spectrometer, Agilent / Varian 959

When it comes to finding leaks in your furnace, it can be a true art form. One of most common customer questions concerns how to find a leak using a helium mass spectrometer. This video tutorial is given by Ipsen engineer provides step-by-step instructions detailing how to perform a leak check, from calibrating the helium mass spectrometer, Agilent / Varian 959, to determining what exact part of the furnace is the source of the leak.

Agilent / Varian Leak Detector

Basic principals: Leak Testing Sealed Laser and Photonics Components

Basics of leak detection and leak checking methods applied to laser and photonics to verify components. How to determine how much a package leaks and measure very small leaks by means of mass spectrometer leak detection.

Leak Testing Cryogenic and Industrial Gas Components and Systems

Leak detection practices to work with special gases and cryogenic materials. Introduction to test methodologies to improve leak testing protocol, increase productivity and product quality, reduce warranty costs, downtime, and potential liability/safety hazards.

Best Practices for Leak Testing Large Vacuum Chambers

How-to check large vacuum chambers for leaks in a fast, efficient, and cost-effective way using a helium leak detector. Fundamentals about the proper selection of a leak detector, the connection of the detector to the vacuum system, and the appropriate use of helium tracer gas.

Leak Detection of Biopharmaceutical Processes 每 How to Avoid Costly Contamination

Agilent PHD-4 Portable Helium Leak Detector as an easy, precise, and cost-effective method of finding leaks in Biopharmaceutical Processes and prevent process batch contamination costly contamination and ruined production batches

How to change the calibrated reference leak in the Agilent HLD helium leak detector

This 4-minute video shows how to replace the internal calibrated reference leak in Agilent HLD helium leak detectors, and how to update the system to maintain calibration.

Agilent CrossLab CS Electronic Leak Detector and ADM Flow Meter Cartridge System

Get an up-close look at our new flow meter and leak detector〞including its compact design, easy cartridge change, and hassle-free recalibration.

Fundamentals of Leak Detection

Considerations and challenges of finding leaks and measuring leak rate. Technologies including bubble-testing and pressure decay are compared to helium mass spectrometer leak detection. Equipment, set-up, and process costs and methods are reviewed and compared.

Agilent 2 Minute Tutorial - Identifying Virtual Leaks in UHV Systems

When detecting leaks, it is important to distinguish between virtual and real ones. Examples of virtual leaks can be: gas desorption, diffusion, trapped volume, and back streaming. Leak-up or rate-of-rise tests can indicate whether a vacuum system's base pressure is limited by virtual or real leaks.

Agilent CrossLab CS Electronic Leak Detector and ADM Flow Meter Cartridge System

Get an up-close look at our new flow meter and leak detector〞including its compact design, easy cartridge change, and hassle-free recalibration.

Turbo Pump

The new Vacuum Link mobile app - Agilent

The Vacuum Link app for your iPhone or Android smart phone enables you to connect to the TwisTorr 305 turbo pump to control and monitor pump performance. Track and export operating parameters quickly and easily.

AGILENT TWISTORR 84 FS Turbo Pump 3D Animation

The 84 FS turbo pump combines TwisTorr drag stage technology and Agilent Floating Suspension, to provide high vacuum performance, low noise and low vibration, and to ensure stability over time and easy system integration.

Turbo pumps: Discover the innovative Agilent's TwisTorr FS Family

The TwisTorr FS turbo pumps family combines TwisTorr drag stage technology and Agilent Floating Suspension, to provide outstanding high vacuum performance, low noise and low vibration, and to ensure stability over time and easy system integration.

Agilent 2 Minute Tutorial How Conductance Impacts Pumping Speed

A system with poorly designed conductance can have drastic consequences on the effective pumping speed: the cornerstone of this tutorial is to emphasize the need to design a system that does not have negative effects on the performance of a high or ultrahigh vacuum system. The impact of conductance on pumping speed can be demonstrated by inserting a Conductance restriction between the pump and the Vacuum Chamber.

Turbo Pump Care and Use 101 - Part 5 - Venting and Shutdown - Agilent

Turbo Pump Care and Use 101 - Part 5 - Venting and Shutdown - Agilent

Turbo Pump Care and Use 101 - Part 4 - Normal operation - Agilent

Turbo Pump Care and Use 101 - Part 4 - Normal operation - Agilent

Turbo Pump Care and Use - Part 3 - Startup - Agilent

Turbo Pump Care and Use - Part 3 - Startup - Agilent

Turbo Pump Care and Use - Part 2 - Installation - Agilent

Turbo Pump Care and Use - Part 2 - Installation - Agilent

Turbo Pump Care and Use - Part 1 - Pump Overview - Agilent

Turbo Pump Care and Use - Part 1 - Pump Overview - Agilent

Introducing TwisTorr 305 FS and 305-IC ® turbo pumps by Agilent

Introducing TwisTorr 305 FS and 305-IC ® turbo pumps by Agilent

The New Agilent TwisTorr 304 FS

Innovation expands: Discover the Agilent TwisTorr FS Family

Agilent Turbo-V Pump 3D Animation

The New Agilent TwisTorr 304 FS

Agilent Twistorr 84 FS Turbo Pump 3D Animation

Dry Scroll Pump

How to change the Tip Seals in an Agilent IDP-15 Dry Scroll Pump

Agilent IDP-15 Dry Scroll Pumps tip seals' change live demonstration. A simple, straightforward and step-by-step guideline to execute the IDP-15 periodic maintenance in a few minutes. Learn more about Agilent quiet, oil-free vacuum pumps here: https://www.hexoind.com/index.php?ws=ourproducts&cid=321154&cat=Vacuum-Products&subcat=Dry-Scroll-Pumps&subsubcat=Agilent-Varian

How to change the tip seals in Agilent IDP-7 and IDP-10 Dry Scroll Pumps.

Agilent IDP-7 and IDP-10 Dry Scroll Pumps tip seals' change live demonstration. A simple, straightforward and step-by-step guideline to execute the IDP-7 and IDP-10 periodic maintenance in a few minutes. Learn more about Agilent quiet, oil-free vacuum pumps here: https://www.hexoind.com/index.php?ws=ourproducts&cid=321154&cat=Vacuum-Products&subcat=Dry-Scroll-Pumps&subsubcat=Agilent-Varian

Agilent Oil Free GC/MSD 每 A World of Difference

Agilent Oil Free GC/MSD 每 A World of Difference

Step-Up to Agilent Oil-Free Vacuum Mass Spectrometers

Step-Up to Agilent Oil-Free Vacuum Mass Spectrometers

Agilent IDP Dry Scroll Pump - Inlet Isolation Valve

Dry Scroll Pumps Family: Agilent IDP-series

Agilent IDP 3 Dry scroll pump for 597x series GC MSD Maintenance Video

Agilent IDP 3 Dry scroll pump for 597x series GC MSD Installation Video

Agilent Oil Free GC MSD 每 A World of Difference (built with Dry Scroll Pump)

Agilent IDP Dry Scroll Pump - Inlet Isolation Valve

Ion Pump

How to Setup I-Protect and Step Function for the 4UHV Controller

In this short video, Bartly Carlson demonstrates how to set up I Protect and Step functions on your Agilent 4UHV Ion Pump Controller.

How to Change the Pressure Units on a 4UHV Controller

See these simple instructions to use the pressure unit of your choice on the Agilent 4UHV Ion Pump Controller.

How to use the Agilent 4UHV Ion Pump Controller to run any Ion Pump

Control any ion pump with the Agilent 4UHV Ion Pump Controller. Here's how.

4UHV Ion Pump Controller - Multichannel Ion Pump Power and Control

Discover the Agilent 4UHV Ion Pump Controller, which enables you to power up to four ion pumps at the same time, and delivers reliable and accurate pressure measurement to 10-10 millibar.

What*s New In Ultrahigh Vacuum Technology

Enjoy this panel discussion of recent developments in ultra-high vacuum technology.

Vacuum for Physics Research

The world of physics is undergoing an explosion of breakthrough achievements, including the realization of long-predicted phenomena such as the observation of the Higgs Boson, measurement of gravitational waves, and the use of particle beams to destroy inoperable brain tumors. Behind these achievements is the enabling technology of vacuum. Beginning with the simple question ※Why do we need vacuum?§ for this research, we will move on to discuss the types of vacuum systems required, and finally some of the challenges physics researchers face in achieving sufficient vacuum, and some techniques they employ to overcome them. Achieving the very low pressure conditions required for these processes is not straightforward. For example, creating the vacuum necessary for particle physics research requires at least three, and often four, different vacuum pump technologies. Understanding how gas molecules behave at sub-atmospheric pressures is critical in designing effective vacuum environments, choosing the correct components and materials, and understanding maintenance requirements. This webinar explains the process of generating, measuring, and maintaining vacuum pressures specific to these areas of physics research.

How StarCell Ion Pumps Help Achieve the Best Ultimate Pressure

This presentation reviews the various pumping mechanisms of the Sputter Ion Pump (gettering, implantation, and burial of high energy neutrals) and discusses how these mechanisms are optimized in commercial Ion Pump offerings. The important contribution of StarCell technology to research in Sub-Atomic Physics (e.g., LIGO Gravitational Wave observatory) and Semiconductor metrology (e.g., Scanning Electron Microscope) applications is discussed with specific examples and success stories.

Agilent IPCMini Ion Pump Controller - High resolution, rapid response, accuracy

Discover the Agilent IPCMini single channel ion pump controller 每 fast response, high resolution, 3.5 in. touch screen display.

Agilent 2 Minute Tutorial - Creating Ultrahigh Vacuum

One of the most challenging tasks for vacuum system designers is to create ultra-high and extreme-high vacuum pressures. Pumps capable of generating UHV and XHV pressure include Sputter Ion Pumps, Titanium Sublimation Pumps and Non-Evaporative Getters. With a variety of pumping elements available, one can select the most appropriate pump or combination of pumps for the UHV or XHV application.

Agilent 2 Minute Tutorial - Using Ion Pump Current to Measure UHV Pressure

When choosing a vacuum gauge, it is possible to adopt high vacuum ionization gauges or sputter ion current. After describing the basic operating principle of the Sputter ion Pump, this video shows how to measure UHV pressure with Agilent*s SIPs.

Agilent 2 Minute Tutorial - Material Preparation and Cleaning for Ultrahigh Vacuum

Material preparation and cleaning in ion pump manufacturing is critical to achieving ultrahigh vacuum pressures. One cleaning process to which the pump components are subjected is vacuum firing, through which the outgassing rate of the pump is reduced, and the achievement of the ultimate pressure is assured. In this video, Senior Applications Engineer John M. Screech interviews Chiara Paolini, Ion Pump Quality and Test Manager to learn about cleaning for UHV.

Agilent Ion Pump Manufacturing

Agilent 4UHV Ion Pump Controller

Rotary Vane Pump

EU 67 / EU47 NEXT Generation | PVR

EU NEXT Generation by PVR Vacuum Design The revolution of a standard

NEW HWT series | High Water Tolerance | PVR srl

With a view to the continuous development of our range of products, a new model version HWT (High Water Tolerance) specifically designed for wet applications is now available. The HWT series of pumps, with increased vapour disposal capacity, is perfect for all those applications where it is necessary to avoid condensation of vapours inside the pump. This series allows extending the pump life with consequent advantages for the customer in terms of efficiency and servicing costs. - PVR Vacuum Design

Agilent High Capacity MS Rotary Vane Pumps

Agilent High Capacity MS Rotary Vane Pumps: Leading Performance in a Simple, Robust, Compact and Reliable design. MS Single Stage Rotary Vane Pumps. Roughing and Backing High Vacuum Pumps. Agilent MS pumps are ideally suited for use in combination with Agilent Turbo & Diffusion pumps, or with HV pumps of any other manufacturer. Agilent VPD is a total vacuum solution provider for the Industrial High and Medium Vacuum equipment.

Vacuum Solution

Vacuum for Your Industrial Process - Agilent

This webinar describes the challenges and solutions to creating, measuring, and maintaining vacuum to optimize the performance of your industrial vacuum process or system.

PVR Vacuum Design - Corporate video

PVR Srl is an Italian company that offers innovative products and services in the vacuum sectors. Founded in 1964, today it has a specialized team that is able to support its customers with high quality and reliable vacuum pumps. PVR is active in many companies all over the world, especially in the field of food, chemical, pharmaceutical, packaging, medical, heat treatment and metallization, woodworking and research laboratories sectors. The mission of PVR takes place in the constant search for excellence to bring quality and value through the products and services provided to its customers. We think that give to the customers a concrete solutions for their needs, allow us to grow and succeed in a complex and extremely competitive market. To achieve this ,PVR operates through a commercial and service network all over the the world. Our corporate culture is focused on the growth of the skills of our employees in order to offer, through shared values, sustainable development for our society, for stakeholders and for the communities in which we operate.

PVR Story

PVR Vacuum Design - company history

Agilent ADM Flow Meter 每 an innovative minute

Stainless Steel Tube Vacuum Valves - Order, Ship, Assemble - Agilent

Stainless Steel Tube Vacuum Valves - Order, Ship, Assemble - Agilent

Stainless Steel Tube Vacuum Valves - How to Replace the Bellows - Agilent

Stainless Steel Tube Vacuum Valves - How to Replace the Bellows - Agilent

Vacuum Solutions for Mass Spectrometry and Instrumentation Video - Agilent

Vacuum Solutions for Mass Spectrometry and Instrumentation Video - Agilent

Vacuum Solutions for Nanotechnology - Agilent

Vacuum Solutions for Nanotechnology - Agilent

Oscilloscope

RIGOL DS70000 Series Oscilloscope

Long Record Measurements Comparison of the MSO7000 VS MDO3000 - by Rigol

RIGOL's 7000 Series Oscilloscope delivers accurate measurements in real time. The Tektronix MDO3000 struggles to do the same. Compare here.

Debugging Offset Signals Comparison of the MSO7000 VS MDO3000 - by Rigol

Being able to accurately view signals to debug a particular problem is a need ability for any oscilloscope. Compare the RIGOL 7000 capabilities versus Tektronix MDO3000.

Rise Time Comparison of the MSO7000 VS MDO3000 - by Rigol

The RIGOL DS7054 delivers superior rise-time performance than the MDO3054 due to superior sampling and bandwidth headroom. Learn more about the DS7000 Series Digital Oscilloscope: DS7000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Sampling Comparison of the MSO7000 VS MDO3000 - by Rigol

See the benefits of 10GSa/sec sampling and long record length in comparison to the MDO3000. Avoid undersampling and signal distortion. Learn more about the DS7000 Series Digital Oscilloscope DS7000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Waveform Capture Rate Comparison of the MSO70000 VS MDO3000 - Rigol

Compare waveform capture rate performance of the DS7000 and the MDO3000. Significant performance advantages are delivered by the UltraVision II architecture. Learn more about the DS7000 Series Digital Oscilloscope DS7000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Jitter Comparison of the MSO7000 VS MDO3000 - by Rigol

The DS7000's UltraVision II architecture and Phoenix chip set delivers significantly better frequency accuracy than the MDO3000. Learn more about the DS7000 Series Digital Oscilloscope DS7000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Waveform Capture Rate Comparison of the MSO5000 VS the RTB2000 - by Rigol

Fast Waveform Capture Rate minimizes deadtime to insure short duration signal artifacts are captured and displayed. With up 500,000 wfms/sec see how RIGOL provides ~10X the performance of the RTB2000. Learn more about the MSO5000 Series Digital Oscilloscope MSO5000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Memory Depth Comparison of the MSO5000 VS the RTB2000 - by Rigol

The MSO5000 provides 8GSa/sec sampling and up to 200M record length. See how this combination allows users to get significantly more signal resolution on longer captures than with the RTB2000. Learn more about the MSO5000 Series Digital Oscilloscope MSO5000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Record Mode Comparison of the MSO5000 VS the RTB2000 - by Rigol

he MSO5000 allows users to capture up to 450,000 frames for playback and analysis. This capability allows the user to isolate only signals of interest and view them over time. See how the MSO50000 compares with the RTB2000. Learn more about the MSO5000 Series Digital Oscilloscope MSO5000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Storage Speed Comparison of the MSO5000 VS the RTB2000 - by Rigol

Longer record lengths can make accessing data over USB a time consuming problem. See how the performance hardware architecture of the MSO5000 provides 11X faster access of a 10M record than the RTB2000. Learn more about the MSO5000 Series Digital Oscilloscope MSO5000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

FFT Comparison of the MSO5000 VS the RTB2000 - by Rigol

The RIGOL 5000 Series delivers high resolution FFTs (up to 1 Mpts) with Spectrum Analyzer like controls including span, peak search, and color density. Learn more about the MSO5000 Series Digital Oscilloscope MSO5000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Storage Speed Comparison of the MSO5000 VS the RTB2000 - by Rigol

Longer record lengths can make accessing data over USB a time consuming problem. See how the performance hardware architecture of the MSO5000 provides 11X faster access of a 10M record than the RTB2000. Learn more about the MSO5000 Series Digital Oscilloscope MSO5000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

High Resolution Mode Comparison of the MSO5000 VS the RTB2000 - by Rigol

Much is made about the RTB2000 10Bit A/D. But see how the RIGOL MSO5000's custom analog front-end ASIC provides significantly better dynamic range, eliminating saturation and provides better resolution of small signals. Learn more about the MSO5000 Series Digital Oscilloscope: MSO5000 Series product page: https://www.hexoind.com/index.php?ws=category&cid=312139&cat=Digital-Oscilloscopes&subcat=Rigol#openproducts

Advanced Analysis Capabilities of the MSO5000, DS7000 and MSO8000

Engineers needs answers at their fingertips. With 6 Unique integrated instruments, 43 Precision Measurements, Power, Histogram, FFT and other Analysis capabilities the 7000 Series allows customers to quickly identify and resolve complex design challenges.

RIGOL's DS7000 series Digital Oscilloscopes

The 7000 series oscilloscopes combines best in class sampling and memory depth with our flexible user interface enabled by our new Ultra Vision 2 architecture and innovative phoenix chipset. With 100 to 500 MHz models each with 4 analog channels and some with 16 digital channels and a built-in waveform generator the DS7000 brings advanced analysis and visualizations capabilities to embedded design, power analysis, serial decode and multi-domain applications.

MSO5000, DS7000 and MSO8000 User Interface

Customers want flexibility in how they interact with their instruments. Incorporating Touch, Traditional Button and Knob, Mouse/Monitor, Web Control and Remote Operation the 7000 Series Next Generation User Interface provides users 5 unique ways to interact with the instrument.

MSO5000, DS7000 and MSO8000 User Interface

Customers want flexibility in how they interact with their instruments. Incorporating Touch, Traditional Button and Knob, Mouse/Monitor, Web Control and Remote Operation the 7000 Series Next Generation User Interface provides users 5 unique ways to interact with the instrument.

RIGOL's MSO5000 Series Digital Oscilloscope

The MSO5000 combines class leading system performance, a modern next generation UI and a suite of innovative analysis tools to help engineers quickly capture, isolate and debug their most complicated design challenges. And at a starting price of just $909 the MSO5000 will delight both the engineer and the accountant. Advanced Analysis features like 7 Integrated instruments, Zone Triggering, Histogram, Advanced Search and Navigation provide an uncompromised measurement solution delivering capabilities never seen in this instrument class. This video lets you explore the power of the new RIGOL MSO5000.

RIGOL's DS1202Z-E Digital Oscilloscope

The DS1202Z-E comes standard with 2 analog channels, 24MPts of deep memory, a 60,000 frame segmented record mode, standard serial decode and triggering, high resolution FFT, 15 trigger types and 37 integrated measurements making the DS1202Z-E a powerful and capable debug tool for design engineers.

RIGOL's MSO8000 Series Digital Oscilloscope

The MSO8000 Series Oscilloscopes combine best in class sampling and memory depth with our modern, flexible User Interface enabled by our new UltraVision II architecture and innovative Phoenix Chipset. With 600 MHz,1 GHz, and 2 GHz models each with 4 analog channels the MSO8000 Series brings RIGOL*s UltraVision II performance to the high speed engineering bench. The MSO8000 also adds Jitter and Real-time Eye Analysis capabilities in addition to other UltraVision II functions including zone triggering, 7 instruments in one, Enhanced FFTs, color grading, and histograms all supported by the high sample rate, deep memory, and full memory measurements.

WIFI Modular Oscilloscope Saluki MO1072

Network Analyzer

RIGOL's VNA Calibration Guide

Making accurate VNA measurements requires precise instrument calibration. With the RIGOL calibration kits and a customizable UI it is quick and simple to set up your instrument with our kit or via a user defined calibration setup. See how easy it is to calibrate the RIGOL VNA in order to insure accurate and repeatable results.

RIGOL's VNA Distance to Fault (DTF) Measurement

A "Distance to Fault§ measurement is a frequency domain reflective test used to identify signal path degradation and faults. It is useful debugging communications system and completing cable test as well as optimize performance and throughput of a network. See how the RIGOL Vector Network Analyzer lets you quickly complete DTF tests and identify root cause failures.

RIGOL's RSA3000N and RSA5000N series Spectrum Analyzer with VNA Vector Network Analysis mode

The new RIGOL Vector Network Analysis mode adds significant capability to our RSA family of Spectrum Analyzers. Customers needing to characterize active or passive components, identify signal path errors or tune antennas will benefit from the complete VNA solution. Supports the following: S11 - Reflection Coefficient S21 - Forward Transmission Distance to Fault The VNA Mode comes with a rich visualization set to quickly identify and resolve problems with your RF Designs Smith Chart Return Loss Standing Wave Ratio Phase Delay Insertion Loss Group Delay Return Loss Distance to Fault

RIGOL's VNA S21 Measurement

A "Forward Transmission§ S-Parameter, known as an S21, describes how energy passes through a network. To make the measurement a signal is put into port 1 and measured at port 2. This is important when characterizing the performance of passive components like attenuators, splitters, and filters. See how easy it is to make an S21 measurement using the RIGOL Vector Network Analyzer.

RIGOL's VNA S11 Measurement

A "Reflection Coefficient§ S-Parameter, known as an S11, describes how energy is reflected back to a transmiting port. To make the measurement a signal is put into port 1 and measured at port 1. This is important when characterizing the performance of active components like amplifiers and debugging signal integrity issues. See how easy it is to make an S11 measurement using the RIGOL Vector Network Analyzer

Spectrum Analyzer

Overview of the DSA800 Series Spectrum Analyzer

This video covers the basic over view of the DSA800 series and DSA700 series swept spectrum analyzers.

Basic Signal Testing with a DSA800 Series Spectrum Analyzer

How to use the dsa800 series to perform basic signal testing and utilize markers.

Getting started with your Rigol DSA800

How to quick take your first measurements with a DSA800 series.

RIGOL's VSA Measurement Application for the RSA5000 Series

RIGOL*s VSA Application extends the capabilities of the RSA5000 Series to include Complex Signal Analysis and Demodulation. The ability to analyze quadrature encoded signals makes it possible to characterize RF modulations including QAM and QPSK as well as ASK and FSK signals. Engineers can also validate signals vs preset standards for signals including GSM, W-CDMA, Bluetooth, 802.11b, Zigbee, and APCO 25. View constellation diagrams, spectrum, time, errors, and symbols to speed debug of these complex signals. The VSA Measurement Application can be added to any RSA5000 Series Real-Time Spectrum Analyzer.

RIGOL's RSA3000E Series Real-Time Spectrum Analyzer

Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference. Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems. The RSA3000 and RSA3000E Series combine High Performance swept analysis with Real-Time performance (9.3米s 100% POI), rich data displays, and advanced triggering all at an exceptional price.

▽A Glimpse▼ of Saluki S3532 Bench-top Spectrum Analyzer

▽A Glimpse▼ of Saluki S3531 Portable Spectrum Analyzer

Typical Operation of Saluki S3331 Handheld Spectrum Analyzer

A Quick Look of Saluki S3331 Handheld Spectrum Analyzer

Saluki S3302D Typical Operation

Saluki S3302 Handheld Spectrum Analyzer Brief Introduction

Waveform Generator

Arbitrary Waveform Generation Comparison of the DG800 VS the SDG1000 - by Rigol

The DG800 allows users to created signals that more closely match the custom arbitrary file that they designed. With 16 bit resolution the DG800 can create more then 4 times smaller steps then the SDG1000. Learn more about the DG800 Series DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

DG2000 Series User Interface - by Rigol

Customers want flexibility in how they interact with their instruments. The DG2000 series combines Touchscreen Capability, Traditional Button and Knob, Remote Operation all allow the customer to control the instrument exactly how they would like to.

Installing an Option onto the DG800 Series - by Rigol

How to activate a license for a RIGOL instrument. License activation website: http://licenseen.rigol.com/CustomerSe...

Three Different Ways to Load an Arbitrary Waveform - by Rigol

With the new DG800 and DG900 series arbitrary waveform generators, there are three ways to load an arbitrary waveform onto the instruments. The first is by using a USB memory stick, load an arbitrary waveform directly from an oscilloscope and the last way is from a computer via USB cable. DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

Generate RS232 Traffic - by Rigol

IoT and Embedded Engineers need to generate RS232 traffic to test control interfaces and communication links. This can be a challenge when you are bringing up your device. The DG800 and DG900 include an integrated RS232 generation capability to allow you to quickly set up and generate RS232 traffic from the instruments front panel. DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

Harmonic Generation - by Rigol

The DG800 and DG900 allows you to generate up to 8 Harmonics of the base signal. Simple setup and configuration lets you quickly produce harmonic signals to generate complex RF environments or inject system noise. DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

Generate Pseudo-Random Bit Streams - by Rigol

Engineers testing digital communication links need to generate Pseudo-Random Bit Streams (PRBS). The DG800 and DG900 simplifies this task with integrated PRBS Patterns available with the push of a button. DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

Dual Tone Outputs - by Rigol

The DG800/DG900 make generation of Dual-Tone Signals simple and reliable. Just input your frequency and amplitude and you can generate complex dual tone signals using just 1 channel. Great for filter testing as well as emulation of real world signals. DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

Sequence Mode - by Rigol

Create and combine complicated sequences of signals for emulation or failure analysis with the touch of a finger. Combine cycles of different waveform types including dual tone, arbitrary waves, noise, PBRS, or ARBS to create test sequence for advanced applications. Complete test sequences from the front panel for waveforms that used to require interactive PC control, saving time and money. DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

Benefits of 16 Bit Resolution - by Rigol

The DG800 and DG900 Series generators extend the output with 16 bits of resolution. With 4 times as many output voltage options vs traditional 14 bit generators the DG800 more reliably reproduces any waveform - improving signal fidelity and performance. RIGOL is proud to bring you the most affordable portfolio of 16Bit Generators on the market DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

SiFi II Technology - by Rigol

SiFi point to point sampling insures high fidelity arb generation with easy setup and adjustment. SiFi II enhances this capability by adding interpolation, step and smooth filtering options which allow users to modify waveform characteristics in both the time and frequency domain. The combination of 16Bit Resolution, exceptionally long arb memory, and SiFi II delivers unmatched flexibility and signal fidelity. RIGOL is proud to bring you the most affordable portfolio of 16Bit Generators on the market. DG800 Series Product and DG900 Series Product Page: https://www.hexoind.com/index.php?ws=category&cid=322861&cat=Waveform-Generators&subcat=Rigol

Rigol DG4000 - Creating a Basic Waveform

The DG4000 series is a dual channel arbitrary waveform generator which can create basic and complex signals.

RIGOL's DG800 and DG900 series Arbitrary Function Generators

Category Leading Performance for today's most complex embedded debug challenges - 16 Bit Resolution on All Models - Intuitive Next Generation Touch Interface - 10MHz to 100MHz Frequency Ranges - Fanless Cooling for silent operation - High Sample Rate and Long Memory - Advanced Capabilities like Dual-Tone, Harmonics and Sequencing - Complex Integrated Functions like PRBS Patterns and RS232 Generation - Enhanced Waveform modes and Signal Fidelity with SiFi II technology

RIGOL's DG2000 Series Arbitrary Waveform Generator

Engineers who require high signal fidelity in a reliable and capable waveform generation need look no further than the DG2000 Series generators. With frequencies up to 100 MHz, 16Bit Resolution, and arbitrary waveforms of up to 16 Mpts the DG2000 reproduces any waveform with high signal fidelity. SiFi II adds additional filtering capabilities making this one of the most flexible generators on the market. The hybrid touch interface and industrial design make it the perfect choice for your lab while standard Ethernet and USB make it the choice for engineers who need to programmatically control their instrument.

Signal Generator

RIGOL's DSG800A Series RF Signal Generator

The DSG800 series covers output frequencies from 9 kHz to 3.6 GHz. The instruments provide maximum output power up to +20 dBm and low SSB phase noise -112 dBc/Hz, amplitude accuracy of +/- 0.5 dB, and frequency resolution of 0.01 Hz at any frequency. An oven-controlled crystal oscillator time-base option provides < 5 ppb temperature stability and < 30 ppb/year aging stability, the most accurate and stable timebase available in this class. THe DSG800A models provide internal and external IQ Modulation support including FSK, QAM, and QPSK signals. Use the IQ modulation to emulate transmitteddata sequences for receiver testing. For IoT and RF applications from design to debug the DSG800 series provides uncompromised RF signal generation capabilities at an unprecedented value.

Cable and Antenna Analyzer

Saluki S3101 Cable and Antenna Analyzer

Saluki S3101 Cable and Antenna Analyzer Unboxing

Professional Cleaning Equipment

PREVENTING SLIPS ON WET FLOOR -- Karcher BD 50/50 C Bp Classic Compact Scrubber Drier Floor Cleaning

Karcher BD 50/50 C Bp Classic Compact Scrubber Drier Floor Cleaning PREVENTING SLIPS ON WET FLOOR

Pressure Testing Pump

Diffusion Pumps

Gauges

Agilent 2 Minute Tutorial - How Thermal Gauges Can Benefit UHV Systems

Thermal gauges, out of all the available gauge technologies, offer excellent value for measuring rough vacuum pressure, but even UHV and XHV system can benefit from them. All thermal gauges operate by heating a filament and exposing it to the vacuum system. This video explains why, how, and which thermal gauges can be successfully used on ultra-high vacuum systems, and how they operate to achieve both accuracy and durability.

Agilent 2 Minute Tutorial - Measuring Ultrahigh Vacuum Pressure

Ionization gauges convert residual molecules to positively charged ions, and then attract them to a negatively charged collector where they create a measurable current. Modifications to high vacuum ionization gauges can optimize their performance at a very low pressure.

Agilent 2 Minute Tutorial - Combining Vacuum Sensors to Make Wide Range Gauges

No one gauge technology will provide pressure measurement throughout the range of vacuum. Combining vacuum sensors can produce a gauge capable of measuring pressure better than with any single technology. After having highlighted the properties of individual sensors, i.e. Pirani, Capacitance Manometer, Hot Filament Ionization, and IMG, this video shows some sensor combinations to measure pressure in a vacuum system.

MRO & Consumable

Greenwipes Multipurpose Industrial Wipes Demo Video

WE TAKE BOTTLES; RECYCLED THEM; AND TURN THEM INTO; GREENWIPES(TM) The only Environment wipes made from recycled plastics bottles. Reason to choose GREENWIPES(TM) 1. More Economical Than Cotton Rags 2. Durable / Feels Like Cloth / Reusable 3. Super High Absorbency 4. Toxic Free 5. Multi Purpose / Multi Industry 6. Chemical Resistant 7. Ultra Low Lint 3. Light & Portable 4. Eco-Friendly & Recyclable Benefits to User: 1. Cheaper than Rags / Cost Savings up to 60% 2. Reduce Schedule Waste Cost 3. Space Savings 4. Good Housekeep / Enhance Japanese 5S System



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