Grâce à son interface tactile novatrice, le plus grand écran haute définition du marché et 4, 6 ou 8 entrées FlexChannel™ qui vous permettent de mesurer un signal analogique ou huit signaux numériques, l’oscilloscope MSO Série 5 est prêt à relever tous les défis, d’aujourd’hui et de demain. Il établit une nouvelle norme en termes de performances, d’analyse et d’expérience utilisateur globale.
Bien plus qu’un nouvel écran et une nouvelle interface utilisateur. Une nouvelle norme.
Consultez l’ensemble des informations et prenez le contrôle grâce à l’écran tactile HD de 15,6 pouces (39,6 cm). Utilisez l’écran tactile capacitif avec zoom par pincement et balayage, les commandes de la face avant ou la souris pour analyser et gérer plusieurs signaux sans errer dans les menus.
Disponible avec 4, 6, 8 entrées FlexChannel. Chaque entrée peut être utilisée pour observer 1 signal analogique ou 8 signaux logiques numériques, simplement en changeant la sonde. Affichez n'importe quel signal analogique sous la forme d'un signal haute résolution, d'un spectre ou des deux simultanément, avec des commandes d'acquisition séparées par chaque domaine.
Ne laissez aucun détail vous échapper grâce à la résolution verticale pouvant atteindre 16 bits.
Les convertisseurs analogiques numériques 12 bits offrent une résolution verticale de 16 bits grâce à un traitement élaboré du signal numérique. Observez et mesurez les détails des petits signaux, même s’ils se superposent à des signaux de plus grande amplitude.
Achetez ce dont vous avez besoin. Évolutif en fonction de vos besoins.
Performances
Bande passante jusqu'à 2 GHz
Longueur d’enregistrement jusqu’à 125 millions de points
Entrées numériques
Sondes logiques TLP058 qui offrent chacune 8 canaux numériques
Système d’exploitation
Ajoutez le système d’exploitation Windows pour exécuter le logiciel de l’ordinateur sur l’oscilloscope.
Génération de signaux
Ajoutez un générateur arbitraire/générateur de fonctions intégré
Des analyses élaborées
Le décodage/déclenchement série prend en charge les principaux bus, notamment I2C, SPI, USB 2.0, Ethernet, CAN, LIN et bien d’autres encore.
Test de conformité automatique pour Ethernet, USB 2.0 et Ethernet automobile
TPP0500B (500 MHz) lorsque vous choisissez l'option de bande passante 350 ou 500 MHz
TPP1000 (1 GHz) lorsque vous choisissez l'option de bande passante 1 ou 2 GHz
Sondes incluses garanties 1 an
Instrument garanti 3 ans
Souris, cordon d’alimentation et cache avant avec pochette pour accessoires
Version papier du manuel d’installation contenant les informations relatives à la sécurité et au fonctionnement de base
Aide en ligne complète intégrée
Certificat d’étalonnage
Des accidents surviennent. Vérifiez que vous êtes protégé.
Nous sommes les seuls à offrir une couverture pour les dommages accidentels. Oui, cette garantie couvre les détériorations de l’écran, les dommages consécutifs aux chutes, les supports cassés, les conséquences des décharges électrostatiques ou des surtensions électriques. Limitez les réparations imprévues ou les coûts de remplacement grâce à notre forfait Total Protection. Regardez la vidéo ou cliquez sur le lien ci-dessous pour en savoir plus.
Linux fermé
Configuration ouverte Windows (en option)
Configuration ouverte Windows
Configuration ouverte Windows
Configuration ouverte Windows
Configuration ouverte Windows
Fermé
Sondes standard
Sonde passive jusqu’à 1 GHz
avec charge capacitive <3,9 pF
Sonde passive jusqu’à 1 GHz
avec charge capacitive <3,9 pF
Sonde passive 500 MHz
avec charge capacitive de 9,5 pF
Sonde passive 500 MHz
avec charge capacitive de 10 pF
Sonde passive 500 MHz
avec charge capacitive de 10 pF
Sonde passive 500 MHz
avec charge capacitive de 10,5 pF
Garantie standard
3 ans
1 an
3 ans
3 ans
3 ans
?
Analyse bus série intégrée
Le décodage automatique de bus série fait gagner du temps et élimine les erreurs par rapport au décodage manuel. Le déclenchement et la recherche de bus série vous permettent d’isoler les événements pour dépanner les problèmes au niveau du système.
Les concepteurs automobiles s’appuient sur les bus série pour assurer des communications sans erreurs entre ECU, capteurs et actionneurs. Ils peuvent aussi s’appuyer sur les MSO de Série 5 équipés de décodage et de déclenchement CAN, CAN FD, LIN, FlexRay et SENT pour obtenir une vue synchronisée de leurs systèmes. La suite de conformité Ethernet automobile automatisée vous permet d’effectuer des tests aux normes, sans devenir un expert en bus haute vitesse.
Les horloges sont au centre de tous les systèmes intégrés et de toutes les liaisons de communication numériques. La gigue et autres distorsions de l’horloge peuvent affecter le fonctionnement du système et la détection du problème initial peut être compliquée sans les bons outils d’analyse.
Points forts
Bruit de phase standard, TIE et tracés et histogrammes de fréquence
Analyse avancée en option avec décomposition de la gigue et rétablissement de l’horloge
Effectuez des mesures fiables et répétables de la qualité de l’alimentation, des harmoniques, des pertes de commutation, de zone de fonctionnement sûr et plus encore grâce à l’application logicielle de mesure et d’analyse d’alimentations automatiques. Avec jusqu’à 8 voies haute résolution et une large gamme de sondes, le MSO Série 5 est également idéal pour évaluer le séquencement de l’alimentation et l’analyse avancée des convertisseurs de puissance triphasés.
Points forts
Qualité de l’alimentation et harmoniques
Pertes de commutation et analyse de zone de fonctionnement sûr
Analyse de l’inducteur et du transformateur sur circuit
Les cartes actuelles peuvent compter 20 rails d'alimentation ou plus. La plupart acheminent des tensions inférieures à quelques volts avec des limites strictes en matière de bruit. Pour obtenir des mesures précises, une attention particulière est requise.
Points forts
L'option Digital Power Management automatise les mesures d’ondulation et d’activation/désactivation
Jusqu’à 8 voies d’entrée analogiques
Sondes pour rail d’alimentation compatibles Série TPR à faible niveau de bruit
See how Spectrum View provides ease-of-use and the ability to achieve optimal views in both RF and Time domains simultaneously when analyzing the turn on behavior of a spread spectrum clock. This …
During the design and validation of systems that utilize 3 Phase power, it can be difficult to correlate control systems and power electronics with the performance of the overall system. Watch how …
Learn how to annotate test results and methods with “Callouts” for easily documenting important information when sharing data across a team, recreating a measurement at a later date, or delivering …
Automotive Ethernet with PAM3 introduces new test challenges. Tektronix' new, innovative, non-intrusive Signal Separation simplifies Automotive Ethernet testing and set-up, providing advanced …
Watch how easy it can be to setup and analyze waveform behavior using the highly intuitive touch interface. Setting up your measurement and debugging your system has never been easier with the …
Gary, Product Planner for the 5 Series MSO, gives a 5-minute demonstration of the instrument. In just a few minutes you'll learn everything you need to know to use the new touch interface. Get a …
See the ultra-low noise performance of the TPR4000 Power Rail Probe, and how it can be used for measuring DC power rail noise in microvolts, especially when paired with the 6 Series MSO …
Gary, Product Planner for the 5 Series MSO, gives a 5-minute demonstration of the instrument. In just a few minutes you'll learn everything you need to know to use the new touch interface. Get a …
Learn how to get optimal results from your power supply design by checking the power supply rejection ratio. This video covers how DC-DC converters or low voltage drop-out regulators (LDOs) …
Test automation may be used to check automotive Ethernet transmitters for compliance with the BroadR-Reach, 100BASE-T1 (P802.3bw), and 1000BASE-T1 (802.3bp) standards. This demonstration shows the …
If you're doing mixed frequency/time domain work, Spectrum View makes it easy. Learn how to set up 5 and 6 Series MSOs to display synchronized time and frequency domain views on multiple channels …
Get a 6-minute introduction to the Fastframe segmented memory feature on the 5 Series MSO. FastFrame enables high-quality data with the efficient use of memory. Learn how to get off the ground …
Learn how to quickly capture bursts just by drawing a couple of boxes, and how to apply logic and add more shapes to capture increasingly complex waveforms. See how visual triggers work on the 5 …
Learn how 5 and 6 Series MSO Mixed-Signal Oscilloscopes and the optional embedded serial bus analysis software provide unparalleled system visibility by decoding MIL-STD 1553 messages, triggering …
See what happens when you mix a brand new oscilloscope, an apps engineer, and his composite video separator. Yes, you’ll see video on the scope display. But you’ll also learn about using 16-bit …
This video shows how to set up automated SENT bus (also known as SAE J2716) decoding, triggering, and search on the 5 Series MSO mixed signal oscilloscope.
Learn how to use the eScope function to remotely control a Tektronix oscilloscope over a network without any special software. This video shows how to find the IP address of the scope and use a …
Solution complète d’analyse et de débogage Digital Power Management (comprend toutes les mesures en DPMBAS, ainsi que l’analyse de la gigue et l’analyse du diagramme de l’œil)
Solution d’analyse et de débogage Basic Digital Power Management (comprend l'analyse de séquence d’alimentation, l’analyse transitoire et l’analyse de l’ondulation)
This document describes the remote access programming commands for the MSO44, MSO46, MSO54, MSO56, MSO58, MSO58LP, MSO64, and LPD64 instruments. Supports firmware version 1.24.x.
Numéro de référence : 077130510
Introduction
Network drives were introduced in firmware version 1.8.7 for 5 Series, 5 Series Low Profile, and 6 Series MSOs. This feature allows you to specify a directory on another computer for the scope to use as storage. To access this storage …
AFG in MDO3000, MDO4000C, and 5 Series MSO do not have sweep function. But a limited sweep may be created using the arbitrary function.
Example: Create a sweep from 100 KHz to 250 KHz.
ArbExpress (free software on Tek.com) select Equation Editor …
With today's rapid advances in radar technology, developing and manufacturing highly specialized and innovative electronic products to detect radar signals takes leading-edge technology and tools. Tektronix innovative test equipment reduces testing …
Learn how to set up a mixed signal oscilloscope and how use it in several applications including: triggering on pulse width violations, combining analog and digital waveforms to capture crosstalk, troubleshooting setup/hold violations, and checking …
Learn the basics of the hardware protocols of the most common serial buses, such as I2C, SPI , USB, RS-232/422/485/UART, CAN, CAN FD, LIN, FlexRay, Ethernet, and I2S/LJ/RJ/TDM. Find out how to use the protocol trigger, decode and search capabilities …
Timing jitter is the unwelcome companion of all electrical systems that use voltage transitions to represent timing information. Historically, electrical systems have lessened the ill effects of timing jitter (or, simply “jitter”) by employing …
Integrated Tektronix measurement tools for signal capture, characterization, simulation and analysis help you deliver on your promises. Learn more about our military/government solutions.
This application note explains how to use oscilloscope measurements to quantify the performance of any digital clock, including processor clocks and communications clocks. It briefly covers amplitude measurements and focuses on clock frequency …
Losses due to dissipation in switching devices such as MOSFET's and IGBT's contribute significantly to the overall losses in switch mode power supplies. This application note explains how to measure switching loss and conduction loss in power supply …
There are three indicators to look for. A Windows scope will have the Applications menu at the top center of the screen and minimize/maximize/close buttons on the top right. In addition, if you tap at the bottom of the screen, the Windows Taskbar …
The Windows build on Tektronix scopes is from the Long-Term Servicing Channel (LTSC), specifically Windows 10 Enterprise 2016 LTSB (Long-Term Service Branch 1607). You can read more about the LTSC here: https://docs.microsoft.com/en-us/windows/whats …
After you have registered your oscilloscope on Tek.com, you should have received an email with instructions. The email is sent to the address you used to login to tek.com. If you haven't received the email after registration:
Check your spam …
On firmware v1.12 or above, the 5/6 Series MSO added the stacked and overlay mode mix and match feature. It allows user to group multiple channels for overlay mode for easy comparison.
To separate the channels in the group, there are couple options …
The visual trigger option is not listed in the trigger type selection initially. To setup the visual trigger, simply click on the "DRAW A BOX" icon (located in the lower right corner of the display) to draw the areas for the visual trigger. After …
The oscilloscope has a built-in m.2 drive, labeled C:. This drive can be used to store waveforms, setups, and measurement results. However, this drive is not easily accessible to your computer.
The oscilloscope also has several USB ports to support …
Instruments that have both a Linux drive and a Windows drive should have the same firmware revision on both drives.
When only one drive has the latest firmware installed, the instrument user may find that firmware is not updated on the Linux drive …
When you purchase a 5 Series MSO with the 5-WIN option or a 6 Series MSO with the 6-WIN option installed, or upgrade your 5 Series MSO with the SUP5-WIN upgrade, or upgrade your 6 Series MSO with the SUP6-WIN upgrade, you will see very few …
Most field upgrades for the optional features for the 5 Series MSO are also available for a one-time, 30-day free trial. These are available simply by requesting a trial software license and installing the node-locked license in the instrument …
It is in the “Acquisition” badge located in the lower right corner of the screen. It allows the user to set the configuration to save the waveform file or screen capture when there is a triggered event.
The .wfm waveform files saved from Tektronix DPO/DSA/MSO 5K 7K 70K and 5 and 6 Series MSO oscilloscopes contains a time stamp that indicates the time that the scope was triggered. This example program shows how you can extract this time stamp from …
Both 5 and 6 series MSO support a deskew range of -125ns to +125ns.
The 6 series MSO can be adjusted in 1ps resolution for all acquisition modes except Peak Detect and Envelope (40ps resolution).
The 5 series MSO can be adjusted in 40ps resolution …
The 5 and 6 Series MSO setup files contain all instrument settings, user-configured analysis, and reference waveforms, so they provide an easy way to return the oscilloscope to a known state. For example, if you want to build a library of …
Yes. However, it does not apply to both events. It could be only either A or B event for the bus trigger. The second event is locked to edge trigger type.
Bandwidth upgrades to 500 MHz and 1 GHz can be accomplished by ordering an upgrade product and entering a new software license into the instrument. The instrument bandwidth appears in the Help-> About menu near the top of the window, between the …
Yes, the 5 and 6 Series MSO hardware supports a total of three displays, including the instrument’s internal display. The instrument provides DVI-D, Display Port, and VGA connectors on the rear panel.
The standard instrument (running the Linux …
Oscilloscope probes which contain active circuitry, especially with amplifiers in the signal path, have a limited dynamic range over which the probe behaves linearly. When input signals exceed this range, the signal may be distorted. (Such probes …
With firmware v1.16, the invert function is available in the channel menu.
If the unit has the older firmware v1.14 or below, the invert channel feature on the 5 or 6 series MSO is supported via the math channel instead.
Here is the setup …
Currently, there is no auto measurement for the positive or negative pulse count on the 5/6 Series MSO.
The workaround would be using the “Search” feature to search for the pulse width.
First, set up for the positive pulse width auto …
The Floating Licenses are good forever; however, the checkout of the Floating License is good for for any duration from 4 hours up to 4 years, selectable at the time of check out. After it reaches selected duration, it will automatically check …
Each analog channel on the 5 and 6 Series MSO can be converted into 8 digital channels with the logic probe TLP058.
For a 4-channel model (MSO54, MSO64), it is up to 32 digital channels.
For a 6-channel model (MSO56), it is up to 48 digital channels …
Screenshots (also known as hard copies) can be transferred from the Series 4, 5 and 6 MSO oscilloscopes via the remote programming interface using just a few simple commands. For information on how to send commands to the instrument via the remote …
Updating Windows 10 Using Windows Update
By default, Windows 10 will attempt to automatically keep itself up to date with the latest critical security patches, but it will not install optional updates. To ensure Windows 10 receives all available …
For our Linux based instruments or programs licensed under the “GNU General Public License (GPL) or Lesser GNU General Public License (LGPL)” the complete corresponding sources are available. You can order a complete machine-readable copy of the …
After you place an order for the software license or an upgrade for your 5 or 6 Series MSO, you will receive an email (at the email address in your MyTek account). It will look about like this, but customized for you:
Dear Customer …
Roll Mode provides an instant display response when the oscilloscope is operating at very slow sweep speeds. Without it, the acquisition must complete before the display will update. With Horizontal Scale factors as slow as 1000 s/div, that can be a …
The 5 and 6 Series MSO will display a pop-up warning message when it is not completely successful recalling the saved state of the instrument with a setup or session file.
The following message will appear on the display:
WARNING
The oscilloscope …
Yes. With firmware v1.8 or above, using the web browser access to the Windows 10 version is supported along with TightVNC. TightVNC must be installed on both the remote PC and the scope. For the detailed setup instructions, please see the 5/6 …
For the standard instrument (without the Windows 10 option installed), you can simply connect your computer to the instrument through Ethernet and control the oscilloscope with your favorite browser.
Find the instrument’s IP address by selecting …
This document covers the basics of oscilloscopes including history and general operation, in this training presentation developed by a Tektronix Applications Engineer. Learn the XYZ's of Oscilloscopes »
To answer this first you need to understand the layout of how your waveform trace is displayed.
On your oscilloscope you generally will see either 8 or 10 divisions vertically on the screen.
Along the left side of the screen you will see a marker …
Yes! Tektronix offers many different models of real-time oscilloscopes that provide 12-bit or greater vertical resolution for a variety of applications.
Because many high-vertical-resolution oscilloscopes on the market have technical trade-offs such …
Refer to the Prerequisites.txt file available to download on the same page for OpenChoice desktop. Make sure you have all the prerequisites specified.
Prerequisites
1. PC equipped with Microsoft Windows 7 32 Bit and 64 Bit OS, Windows 8.1 32 Bit …
No, but there is no need to. The Windows build on Tektronix scopes is from the Long-Term Servicing Channel (Windows 10 Enterprise LTSC).
Unlike normal releases of version 1607, this release still receives security updates and support from Microsoft …
Most optional, factory-installed features for the 5 Series MSO are also available as field upgrades, and are installed simply by ordering an upgrade product and entering a new, node-locked software license into the instrument.
There are several …
Yes. To setup a peer to peer connection, you must manually configure the IP and subnet mask address on both the scope and your computer. You can then use an ethernet cable connected directly between the scope and computer. This will work on the …
Since its invention by Tektronix in the 1940s, the oscilloscope’s trigger system has been a key component of the products, providing a stable display of repetitive signals and the capture of specific events in a signal. At the circuit level, the …
The MIPI I3C standard defines a two-wire interface with a bidirectional data bus for connecting sensors to an application processor. This application note gives a brief orientation on the physical layer and packet structures of the I3C protocol. It …
This application note describes techniques using an oscilloscope that can help you determine the source of unwanted radiated emissions (EMI), especially after an out-of-limits condition has been identified through formal testing or pre-compliance …
Learn about the physical layers of the most common interchip buses - I2C and SPI - to enable you to troubleshoot bus problems or system issues. Learn how to set up and interpret the results when you use automated decoding, triggering, and search on …
Instrument Declassification and Security Instructions
This document describes how to clear or sanitize 5 Series and 6 Series MSO instruments that have option 5-SEC or 6-SEC installed, to allow removal from a secured area, or returning the instrument for repair.
Numéro de référence : 077140802
TekExpress Automotive Ethernet (10Base-T1S) Compliance Analysis Solution for 5/6 Series Mixed Signal Oscilloscope (MSO)
This document contains operation information for the TekExpress Automotive Ethernet (10Base-T1S) Compliance Analysis Solution. It is a PDF version of the help system accessible in the TekExpress software.
Numéro de référence : 077167900
This is a printable version of the 4/5/6 Series MSO (MSO44. MSO46, MSO54, MSO56, MSO58, MSO58LP, MSO64, LPD64) on-instrument help system. Supports firmware version 1.22.x.
Numéro de référence : 077130310
For firmware version 1.4 and above. This document contains the specifications and performance verification procedures for the instruments.
Numéro de référence : 077130605
This document describes the remote access programming commands for the MSO44, MSO46, MSO54, MSO56, MSO58, MSO58LP, MSO64, and LPD64 instruments. Supports firmware version 1.22.x.
TekExpress Ethernet Compliance Solution for DPO5000/7000/70000 oscilloscopes
The application provides more visibility into your Ethernet designs with 1000BASE-T/100BASE-TX/10BASE-T PHY measurements as outlined in IEEE 802.3 Section 40, ANSI X3.263, and IEEE 802.3 Section 14 specific measurements for different Ethernet standards to the already existing rich tool set of generic jitter, timing, and signal quality measurements in Tektronix Oscilloscope.
This document contains operation information for the TekExpress Ethernet Tx Compliance Solution. It is a PDF version of the help system accessible in the TekExpress software.
This document describes the remote access programming commands for the MSO44, MSO46, MSO54, MSO56, MSO58, MSO58LP, MSO64, and LPD64 instruments. Supports firmware version 1.20.x.
Revision A: This document describes the remote access programming commands for the MSO44, MSO46, MSO54, MSO56, MSO58, MSO58LP and MSO64 instruments. Supports firmware version 1.16.x.
This document contains operation information for the TekExpress Industrial Ethernet Compliance Solution. It is a PDF version of the help system accessible in the TekExpress software.
This is a printable version of the 4/5/6 Series MSO (MSO44. MSO46, MSO54, MSO56, MSO58, MSO58LP, MSO64, LPD64) on-instrument help system. Supports firmware version 1.20.x.
Automotive Ethernet operates as a full-duplexcommunication link over a twisted-pair cable. The Full-Duplex communication, along with PAM3 signaling, adds complexity invalidating the Electronic Control Units (ECU) in real-world conditions. The TekExpress Automotive PAM3 Analysis applicationincludes unique Signal Separation capability and Electrical analysis.
This document describes how to install optional upgrade licenses to add new functions or features to 4/5/6 Series MSO instruments (MSO44, MSO46, MSO54, MSO56, MSO58, MSO58LP, MSO64).
This document describes the remote access programming commands for the MSO54, MSO56, MSO58, MSO58LP and MSO64 instruments. Supports firmware version 1.14.
This document describes the remote access programming commands for the MSO54, MSO56, MSO58, MSO58LP and MSO64 instruments. Supports firmware version 1.12.
Instrument Declassification and Security Instructions
This document describes how to clear or sanitize 5 Series MSO instruments (MSO54, MSO56, MSO58) that have option 5-SEC installed, to allow removal from a secured area, or returning the instrument for repair.
This document describes how to install optional upgrade licenses to add new functions or features to 5/6 Series MSO instruments (MSO54, MSO56, MSO58, MSO58LP, MSO64).
This document describes how to install the Microsoft Windows 10 environment SSD option on the 5/6 Series MSO instruments (MSO54, MSO56, MSO58, MSO64), and how to activate Windows after installation.
This document describes the operation of the Tektronix Demo 3 Board. The Demo 3 board provides signals to demonstrate key Tektronix instrument features.
Tektronix TekExpress Automotive Ethernet solution provides automated compliance test support for 10BASE-T1S (IEEE Std 802.3cg) standard, 100BASE-T1 (IEEE Std.802.3bw) and 1000BASE-T1 (IEEE Std 802.3bp™-2016) standard for Transmitter electrical test …
Download this firmware to install the latest updates for the 5 Series MSO oscilloscopes. This firmware only applies to oscilloscopes that have option 5-WIN (Windows 10) installed.
Download this firmware to install the latest updates for the 5 series MSO oscilloscopes. This firmware only applies to oscilloscopes that do not have option 5-WIN (Windows 10) installed.
Tektronix TekExpress Automotive Ethernet solution provides automated compliance test support for 100Base-T1 (IEEE Std.802.3bw) and 1000Base-T1 (IEEE Std 802.3bp™-2016) standard for Transmitter electrical test specification as per Open Alliance. The …
Download this firmware to install the latest updates for the 5 series MSO oscilloscopes. This firmware only applies to oscilloscopes that do not have option 5-WIN (Windows 10) installed.
Download this firmware to install the latest updates for the 5 Series MSO oscilloscopes. This firmware only applies to oscilloscopes that have option 5-WIN (Windows 10) installed.
With TekExpress Ethernet Compliance Test Software, engineers validating an Ethernet physical layer can perform reliable compliance tests of 10Base-T, 100Base-TX and 1000Base-T technologies in their labs. This application enhances efficiency with …
TekSeriesScope IVI-COM Driver for 4, 5 and 6 Series Mixed Signal Oscilloscopes; 5 and 6 Series Low Profile Digitizers IVI Scope class-compliant driver. It complies with Scope Class specifications (IVI-4.1) as defined by the IVI foundation. An IVI …
The Tektronix TekExpress LVDS transmitter test application offers a physical layer test solution for transmitter parameter measurements and characterization.
TekVISA is the Tektronix implementation of VISA (Virtual Instrument Software Architecture), an industry-standard communication protocol.When installed on a PC, TekVISA provides communication with instruments that are connected to the PC via various …
TekExpress Industrial Ethernet Compliance Solution - MSO 5000 and 6000The TekExpress Industrial Ethernet application (10Base-T1L) is a compliance test solution for performing transmitter electrical specification measurements and MDI return loss …
The Tektronix TekExpress Automotive PAM3 Analysis is an automated test solution for performing Signal Separation on a Full duplex 100BASE-T1 Automotive Ethernet signals at system level. User can perform measurements like eye height and eye width can …
The TekSeriesScope IVI-COM Driver for 4, 5 and 6 Series Mixed Signal Oscilloscopes is an IVI Scope class-compliant driver. It complies with Scope Class specifications (IVI-4.1) as defined by the IVI foundation. An IVI class-compliant specific driver …
Download this firmware to install the latest updates for the 5 series MSO oscilloscopes. This firmware only applies to oscilloscopes that do not have option 5-WIN (Windows 10) installed.
Tektronix TekExpress Automotive Ethernet solution provides automated compliance test support for 100Base-T1 (IEEE Std.802.3bw) and 1000Base-T1 (IEEE Std 802.3bp?-2016) standard for Transmitter electrical test specification as per Open Alliance. The …
Download this firmware to install the latest updates for the 5 series MSO oscilloscopes. This firmware only applies to oscilloscopes that do not have option 5-WIN (Windows 10) installed.
The Tektronix TekExpress Automotive Ethernet solution provides automated compliance test support for 100Base-T1 (IEEE Std.802.3bw) and 1000Base-T1 (IEEE Std 802.3bp™-2016) standard for Transmitter electrical test specification as per Open Alliance …
The Tektronix USB2.0 compliance test application (Opt. 5-CMUSB2, Opt. 6-CMUSB2) running on a 5 Series MSO and 6 Series MSO oscilloscope provides a one-button compliance testing for USB2.0 devices, hosts, and hubs. The USB software automates the …
Problems with setup and hold timing are among the most challenging to identify. Mixed signal oscilloscopes (MSOs) are able to capture both analog and digital representations of signals, making them well-suited for identifying digital timing problems …
This fact sheet compares important specifications and features of the Tektronix 5 Series MSO Mixed Signal Oscilloscope to those of the Keysight S-Series
Explains the physical layer basics of common automotive buses - CAN, LIN, and FlexRay - to enable you to troubleshoot bus problems or system issues. Learn how to set up and interpret the results when using automated decoding, triggering, and search …
The SENT bus is used in automotive sensors to transmit high-resolution measurements to electronic control units (ECUs), usually in the powertrain. Decoding the Single Edge Nibble Transmissions (SENT) by looking at the signals can be very difficult …
From basic signal-checking to high-performance analysis, this selection guide gives an overview of the complete range of oscilloscopes from Tektronix. Comparison tables give high-level specifications and features, and indicate the major differences …
Troubleshooting embedded systems with multiple processors, sensors, actuators, communications and human interfaces, often demands more than the 2 or 4 measurement channels available on most oscilloscopes. More channels can help up to a point, but a …
Learn the basics of the 10BASE-T and 100BASE-TX Ethernet physical layers to help you troubleshoot bus problems or related system issues. Learn how to set up and interpret the results when using automated decoding, triggering, and search on an …
Oscilloscope measurement resolution depends on more than whether the analog-to-digital converter is an 8-bit, 10-bit, or 12-bit device. The whole system, from end to end, must be optimized to mitigate the effects of noise, as well as improve …
12-bit analog-to-digital converters deliver higher resolution on the 4, 5 and 6 Series MSO oscilloscopes
Higher resolution oscilloscope measurements are becoming more important given today’s signal levels. Scopes are available with 12-bit analog-to …
This fact sheet compares important specifications and features of the Tektronix 5 Series MSO Mixed Signal Oscilloscope to those of the LeCroy HDO6000A Series and HDO8000A Series
This fact sheet compares important specifications and features of the Tektronix 5 Series MSO Mixed Signal Oscilloscope to those of the LeCroy HDO9000 Series
Tektronix oscilloscopes offer a portfolio of optional analysis capabilities to simplify serial bus debug or compliance verification. This selection matrix shows which serial standards are supported by each of the oscilloscope series.
Accurately measuring current with oscilloscopes is essential for power supply design and general electronics. Learn how to measure current using shunt resistors and voltage probes, and how to use clamp-on current probes with your oscilloscope. Get …
Making oscilloscope voltage measurements on power supplies is fundamental, but not without challenges. Much is
written on oscilloscopes, but probing techniques are often taken for granted. This application note focuses on probing and …
Most systems use several sets of power rails and verifying proper power supply sequencing requires multiple oscilloscope input channels. You’ll learn the basics of checking the power-on and power-off sequence of an AC-DC power supply, how to look at …
Low Voltage Differential Signaling (LVDS) is a popular signaling system for applications requiring high speed data transfers using low power. This application note explains the basic elements of LVDS signaling, details measurements based on an …
Modern digital oscilloscopes can capture massive amounts of data which must then be analyzed. Discover how the Tektronix Wave Inspector® navigation and search capability gives you the tools to extract the answers you need fast and efficiently.
This fact sheet compares important specifications and features of the Tektronix 5 Series MSO Mixed Signal Oscilloscope to those of the Yokogawa DLM4000 Series
Many of the features of the 5 Series MSO are field-upgradable, including bandwidth, record length, arbitrary/function generator, logic channels, and protocol support. This 2-page fact sheet lists all available post-purchase upgrades.
Ethernet compliance testing requires precise test setups and evaluation against limits dictated by IEEE 802.3 standards. Automated testing software for oscilloscopes greatly simplifies and speeds testing. This application note summarizes key tests …
Tektronix probes ensure the highest signal fidelity possible from your device-under-test to your oscilloscope. With over 100 probe choices available, all perfectly matched to our industry-leading oscilloscopes, you can find the probe you need for …
An oscilloscope can be used to measure the performance of inductors and transformers under operating conditions. This application note:
Provides a quick review of practical inductor and transformer theory, especially related to power supply …
Gives examples of jitter analysis, from basic analysis using frequency and Time Interval Error (TIE) measurements, to more advanced jitter decomposition techniques to help isolate the sources of jitter. Shows examples of jitter measurements using …
The 3 Series MDO and 4, 5 and 6 Series MSOs offer the largest displays and the greatest user experience of any oscilloscope. This brochure gives an overview of the platforms, with the similarities and differences between the four series.
Visual triggers allow you to build triggers by thinking in terms of wave shapes. This technical brief starts by explaining how to quickly capture bursts of specific length by drawing boxes on an oscilloscope display. It then describes how to apply …
This document describes how the Tektronix Control Loop Analysis Kit provides a simple test setup for validating and debugging feedback loop stability. This setup also enables engineers to test power supply rejection ratio (PSRR) on the regulator …
The Tek049 is a new mixed-signal oscilloscope ASIC. It consists of 400 million transistors which make up its high-speed, precision ADCs and integrated DSP. The Tek049 recently debuted as the powerhouse behind Tek’s new 5 Series MSO and will power …
This white paper describes an approach in which new oscilloscope ADC technology, combined with digital signal processing and a low-noise front end; can provide even higher resolution than found in conventional high bit-rate ADC implementations.
As the move toward Automotive Ethernet technology in vehicles accelerates, comprehensive design validation is vital to ensure interoperability and reliable operation across multiple ECUs. This application note provides information on Automotive …
Optimizing and validating a bench power supply design requires a number of important measurements. These include:
Line-side power quality measurements, such as power factor, inrush current, and harmonics
Switching device measurements, such as …
This fact sheet compares important specifications and features of the Tektronix 5 Series MSO Mixed Signal Oscilloscope to those of the Keysight X6000 Series
Designers of mobile devices and other portable systems rely on the System Power Management Interface (SPMI) protocol to monitor and dynamically control supply voltages based on real-time system demands. Enabling them to achieve lower power usage at …
Probing a circuit always has some impact on signals. Probe loading changes the signal being probed and can cause measurement problems or can even cause a circuit to perform differently. Reducing capacitive loading can help minimize these effects. In …
This application note gives a procedure for performing quick checks on an Analog to Digital Converter (ADC) system gain, offset and linearity. The technique uses a ramp signal from a function generator to stimulate the system, including signal …
Learn the basics of the USB 2.0 physical layer to help you troubleshoot bus problems or system issues. Learn how to set up and interpret the results when using automated decoding, triggering, and search on an oscilloscope equipped with USB 2.0 bus …
Communications systems, RADAR, and ultrasonic sensors all rely on signals that transfer information in bursts followed by dead time. Processor interrupt pulses can occur intermittently and infrequently. Conventional signal-shot acquisitions on …
This fact sheet compares important specifications and features of the Tektronix 5 Series MSO Mixed Signal Oscilloscope to those of the Rohde & Schwarz RTO2000 Series
Spectrum View is a new way of performing spectrum analysis on an oscilloscope. This application note shows and explains how Spectrum View operates and how it differs from traditional oscilloscope FFT functions.
Any analog signal may be presented as …
Automotive Primer: In-Vehicle Networking
This primer provides an overview of the trends, challenges and solutions associated with the expected future evolution of in-vehicle networks, as well as a foundation for testing in-vehicle networks to …
No matter the industry, power integrity requirements are becoming more and more strict and the number of critical power rails in a single design is only growing. Traditional power integrity applications typically use passive probes with AC coupling …
USB 2.0 is used in a wide range of applications, thanks to its performance, reliability and relatively low cost. Automated USB 2.0 compliance testing may be used to prepare for formal compliance certification, or simply to validate bus performance …
Learn how to simulate sensor and bus signals on an arbitrary waveform generator. Find out how to capture signals using an oscilloscope, edit them using PC software, and play them back on an arbitrary/function generator.
Grâce à son interface tactile novatrice, le plus grand écran haute définition du secteur et 4, 6 ou 8 entrées FlexChannel® qui vous permettent de mesurer un signal analogique ou huit signaux numériques par voie, l’oscilloscope MSO série 5 est prêt à …
