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TYPE DE TÉLÉCHARGEMENT
MODÈLE OU MOT CLÉ

MDO4000

Le plus puissant des oscilloscopes multi-domaines, l’oscilloscope MDO4000 combine jusqu’à six instruments, avec des options comme le générateur de fonctions et l’analyseur de spectre intégré. Contrairement à tous les autres instruments, il peut synchroniser les voies analogiques, numériques et radio-fréquences, pour des informations inédites sur votre conception.

Prix de base
US $7,430 - US $18,700
Achat/Devis Des questions ? Rejoindre le chat
Bande passante

Jusqu’à 1 GHz

Nombre d‘échantillons

20 millions de points

Voies analogiques

4

Fréquence d’échantillonnage

Jusqu'à 5 G éch./s

 

Bien plus qu’un simple oscilloscope, aussi puissant soit-il

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Les systèmes conçus actuellement sont un mélange complexe de processeurs, de bus série et d’interfaces sans fil. Au cœur du modèle MDO4000C se trouve un excellent oscilloscope Tektronix couplé à une plateforme extensible. Personnalisez-le en fonction de vos besoins. Ajoutez 16 voies logiques, un générateur de fonctions et de signaux arbitraires 50 MHz, l’analyse de protocole et un analyseur de spectre matériel intégré 3 GHz ou 6 GHz pour résoudre les problèmes les plus complexes.

Points forts

  • Système d’acquisition à déclencheur intégré, avec plus de 125 combinaisons de déclenchement dans le temps et les domaines de fréquences
  • Longueur d’enregistrement de 20 millions de points avec les commandes Wave Inspector®
  • Les composants matériels de l’analyseur de spectre permettent une analyse en temps réel du spectre
  • Les fonctionnalités extensibles assurent la pérennité de l’appareil

L’importance d’effectuer des mesures précises

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Plus simplement, les oscilloscopes de la gamme MDO sont conçus pour effectuer les mesures les plus précises du marché et vous offrir une visualisation sans pareil de vos conceptions. L’oscilloscope MDO4000C effectue des mesures sur les données d’acquisition réelles, alors que de nombreux autres instruments ne proposent qu’une capture instantanée en prenant les mesures sur les données affichées. Et ce n’est pas tout. Nous garantissons plus de spécifications que la plupart de nos concurrents, ce qui fait que l’oscilloscope MDO4000C vous garantit une confiance totale dans vos mesures. Après tout, la précision des mesures joue sur l’intégrité de la conception. Pourquoi recourir à un système qui est tout sauf précis ?

Les meilleures sondes du marché, fournies à chaque achat.

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Au moment de l’examen des mesures, les sondes sont un élément important, à ne pas négliger. Lorsque vous faites l’acquisition d’un oscilloscope MDO4000C, les meilleures sondes du marché sont fournies, sans augmentation de prix. Avec la meilleure charge du marché à 3,9 pF et une bande passante correspondant à votre oscilloscope, les sondes TPP sont la solution parfaite au quotidien.

Points forts

  • Les sondes TPP sont fournies, une par voie analogique
  • Charge capacitive de sonde de 3,9 pF la meilleure du marché
  • Bande passante de sonde à 500 MHz ou 1 GHz pour correspondre à la bande passante de l’oscilloscope

Prenez des mesures sans fil à un tout autre niveau

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Que vous aimiez ou que vous détestiez les mesures RF, l’oscilloscope MDO4000C avec analyseur de spectre matériel intégré et logiciel PC SignalVu dispose de tout ce dont vous avez besoin. À l’inverse des oscilloscopes qui proposent une « analyse de spectre » FFT, le modèle MDO4000C avec véritable analyseur de spectre propose un système d’acquisition avec déclenchement intégré à toutes les voies analogiques, numériques et celles de l’analyseur de spectre. Vous pouvez effectuer des mesures RF jusqu’à 6 GHz et corréler les événements dans le domaine fréquentiel avec les phénomènes qui les ont créés dans le domaine temporel.

Points forts

  • Option analyseur de spectre 3 ou 6 GHz
  • Le seul véritable analyseur de spectre intégré du marché
  • Analyse de spectre à synchronisation temporelle avec les formes d’onde analogique et numérique

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.

En savoir plus

Comparaison avec les produits concurrents

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Oscilloscope de la série
MDO4000C

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Oscilloscope InfiniiVision
de la série 4000 X

20 millions de points sur 4 voies, maximum

Longueur d'enregistrement

2 millions de points sur 4 voies, maximum

Données d’un signal

Mesures

Sur les données affichées

Analyseur de spectre matériel dédié

Analyseur de spectre

Aucun.
Utilise une FFT fenêtrée sur l’entrée de l’oscilloscope

De 9 kHz à 6 GHz

Gamme de fréquences RF

Plage max. limitée par l’échelle temporelle horizontale
<15 GHz

Jusqu’à 1 GHz : garantie 1 an

Sondes passives incluses

700 MHz : garantie de 90 jours

3,9 pF

Sonde avec charge capacitive

9,5 pF

 

Modèle Bande passante analogique Fréquence d'échantillonnage Longueur d'enregistrement Voies analogiques Voies numériques Analyseur de spectre Sortie du générateur de fonctions Tarif
MDO4024C 200 MHz 2,5 G éch./s 20 Mpoints 4 16 (en option) Jusqu'à 6 GHz

1 (en option)

US $7,430
Configuration et devis
MDO4034C 350 MHz 2,5 G éch./s 20 Mpoints 4 16 (en option) Jusqu'à 6 GHz

1 (en option)

US $11,500
Configuration et devis
MDO4054C 500 MHz 2,5 G éch./s 20 Mpoints 4 16 (en option) Jusqu'à 6 GHz

1 (en option)

US $15,200
Configuration et devis
MDO4104C 1 GHz 2,5 à 5 G éch./s 20 Mpoints 4 16 (en option) Jusqu'à 6 GHz

1 (en option)

US $18,700
Configuration et devis
Modèle Bande passante analogique Fréquence d'échantillonnage Longueur d'enregistrement Voies analogiques Voies numériques Analyseur de spectre Sortie du générateur de fonctions Tarif
MDO4024C 200 MHz 2,5 G éch./s 20 Mpoints 4 16 (en option) Jusqu'à 6 GHz

1 (en option)

US $7,430
Configuration et devis
MDO4034C 350 MHz 2,5 G éch./s 20 Mpoints 4 16 (en option) Jusqu'à 6 GHz

1 (en option)

US $11,500
Configuration et devis
MDO4054C 500 MHz 2,5 G éch./s 20 Mpoints 4 16 (en option) Jusqu'à 6 GHz

1 (en option)

US $15,200
Configuration et devis
MDO4104C 1 GHz 2,5 à 5 G éch./s 20 Mpoints 4 16 (en option) Jusqu'à 6 GHz

1 (en option)

US $18,700
Configuration et devis
  Tektronix
MDO4000C
Tektronix
MDO3000
Keysight
Série 4000 X
LeCroy
HDO4000
R&S
Série RTE1000
R&S
Série RTM2000
Bande passante 200 MHz à 1 GHz 100 MHz à 1 GHz 200 MHz à 1,5 GHz 200 MHz à 1 GHz 200 MHz à 1 GHz 200 MHz à 1 GHz
Bande passante évolutive Oui Oui Oui -- -- Oui
Voies analogiques 4 2 ou 4 2 ou 4 2 ou 4 2 ou 4 2 ou 4
Fréquence d’échantillonnage analogique Jusqu'à 5 G éch./s Jusqu'à 5 G éch./s Jusqu'à 5 G éch./s Jusqu'à 2,5 G éch./s Jusqu'à 5 G éch./s Jusqu'à 5 G éch./s
Longueur d’enregistrement standard (toutes voies) 20 M 10 M 2 M 12,5 millions de points 10 M 10 M
Générateur de fonctions arbitraires intégré 50 MHz (en option) 50 MHz (en option) 20 MHz (en option) -- -- --
Voies logiques intégrées (MSO) 16 (en option) 16 (en option) 16 (en option) 16 (en option) 16 (en option) 16 (en option)
Analyseur de spectre matériel intégré Jusqu’à 6 GHz (en option) Jusqu’à 3 GHz (en option) -- -- -- --
Synchronisation complète en analogique, numérique et radio-fréquences Oui -- -- -- -- --
Sondes standard Jusqu’à 1 GHz en passif Jusqu’à 1 GHz en passif Jusqu’à 700 MHz en passif Jusqu'à 500 MHz en passif Jusqu'à 500 MHz en passif Jusqu'à 500 MHz en passif
Garantie standard 3 ans 3 ans 3 ans 3 ans 3 ans 3 ans

 

Décodage, analyse et déclenchement de bus série intégrés

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Un seul et même signal de bus série comprend parfois l’adresse, les commandes, les données et les informations sur l’horloge, ce qui peut compliquer l’identification précise des événements recherchés. Les modules d’application série de la gamme MDO4000C transforment l’oscilloscope en un outil robuste pour le débogage des bus série avec déclenchement, décodage et recherche automatiques.

Points forts

  • I2C, SPI, RS-232/422/485/UART
  • CAN/CAN FD, LIN, FlexRay
  • I2S/LJ/RJ/TDM
  • MIL-STD-1553, USB, Ethernet

Mesures et analyse de la puissance

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La demande sans cesse croissante d’efficacité énergétique fait peser de nouvelles contraintes, aussi bien sur les concepteurs que sur les instruments de test. Les contraintes de consommation en veille, les vitesses de commutation toujours plus rapides, les semiconducteurs à faible fuite et les gammes de signaux plus étendues repoussent les limites des conditions de test. Le modèle MDO4000C offre des solutions de test d’alimentation pour répondre à ces spécifications en constante évolution.

Points forts

  • Mesures d’affaiblissement au niveau du commutateur
  • Mesure et analyse de l’ondulation et du bruit
  • Caractérisation de composants à semiconducteurs d’alimentation
  • Débogage des circuits actifs de correction de facteur de puissance

Interférences électromagnétiques (IEM) et compatibilité électromagnétique (CEM)

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Lors des tests EMI/EMC, il existe toujours un risque d’échec, ce qui peut causer des problèmes de calendrier et de budget. L’oscilloscope MDO4000C avec analyseur de spectre intégré et corrélation temporelle des signaux analogique, digital et radio-fréquence, vous permet d’effectuer des tests de conformité préliminaires dans votre laboratoire, ce qui améliore la probabilité de réussite des tests de conformité des interférences électromagnétiques dès le premier essai.

Bus automobiles – Déclenchement, décodage et analyse CAN/CAN FD

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Les exigences techniques des voitures actuelles nécessitent des composants électroniques plus sensibles et sophistiqués que jamais. Avec six instruments en un, l’oscilloscope Tektronix MDO4000C a été conçu pour répondre aux problèmes de test et de vérification de ces technologies sophistiquées. Désormais, il est possible d’utiliser un seul instrument pour les opérations suivantes :

  • Débogage et vérification CAN FD, CAN, LIN et FlexRay
  • Test haute puissance pour véhicules hybrides ou électriques
  • Vérification des systèmes sans fil embarqués des véhicules
  • Évaluation des nouveaux composants (capteurs des systèmes microélectromécaniques, pilotes LED, LED)

 

Fiche technique Package logiciel / Option logicielle Description Configuration et devis
TekScope Anywhere

An offline waveform analysis tool that unchains your data from your scope and adds additional measurement capability.

Contact Us
DPO4BND Application Module; Bundle module for MDO/MSO/DPO4000B and MDO4000 Series (Includes DPO4AERO, DPO4AUDIO,DPO4AUTO,DPO4COMP,DPO4EMBD,DPO4ENET,DPO4LMT,DPO4PWR,DPO4USB,DPO4VID) Contact Us
Afficher la fiche technique DPO4AERO Application Module: Aerospace Serial Triggering and Analysis (MIL-STD 1553, ARINC429) Contact Us
MDO4TRIG Advanced RF Triggering Application Module - Width, Runt, Timeout, and Logic triggers on the RF input of the MDO4000 Series Contact Us
Afficher la fiche technique DPO4EMBD Application Module: Embedded Serial Triggering and Analysis (I2C, SPI) Contact Us
Afficher la fiche technique DPO4ENET Application Module: Ethernet Serial Triggering and Analysis (10BASE-T, 100BASE-TX) Contact Us
Afficher la fiche technique DPO4LMT Application Module: Limit and Mask Testing Contact Us
Afficher la fiche technique DPO4PWR Application Module: Power Measurement and Analysis Contact Us
Afficher la fiche technique DPO4USB Application Module: USB Serial Triggering and Analysis (USB2.0 LS, HS, FS) Contact Us
DPO4VID Application Module: HDTV and Custom Video Triggering Contact Us
Afficher la fiche technique DPO4AUDIO Application Module: Audio Serial Triggering and Analysis (I2S, LJ, RJ, TDM) Contact Us
Afficher la fiche technique DPO4AUTO Application Module; Automotive Serial triggering, Decoding and Analysis (CAN, CAN FD, LIN) Contact Us
Afficher la fiche technique DPO4AUTOMAX Application Module: Extended Automotive Serial Triggering, Decoding and Analysis (CAN, CAN FD, LIN, FlexRay) Contact Us
Afficher la fiche technique DPO4COMP Application Module: Computer Serial Triggering and Analysis (RS-232/422/485/UART) Contact Us
Sonde de courant
Lien vers la fiche technique Sonde Description Configuration et devis
Afficher la fiche technique TCP0020 Sonde de courant AC/DC, 20 A, BP 50 MHZ, interface TekVPI, certificat d’étalonnage traçable Configuration et devis
Afficher la fiche technique TCP0030A

Sonde de courant AC/DC, 30 A DC, DC à 120 MHZ, avec interface TekVPI, certificat d’étalonnage traçable

Configuration et devis
Afficher la fiche technique TCP0150 Sonde de courant : 20 MHz, 5 mA à 212 A, AC/DC, TekVPI Configuration et devis
Sonde passive
Lien vers la fiche technique Sonde Description Configuration et devis
Afficher la fiche technique TPP0502

Sonde passive : 500 MHz, 2 X, TekVPI

Configuration et devis
Afficher la fiche technique TPP1000

Sonde passive : 1 GHz, 10 X, TekVPI

Configuration et devis
Sondes asymétriques basse tension
Lien vers la fiche technique Sonde Description Configuration et devis
Afficher la fiche technique TAP1500 Sonde active : 1,5 GHz, 10 X, asymétrique, TekVPI Configuration et devis
Sondes asymétriques haute tension
Lien vers la fiche technique Sonde Description Configuration et devis
Afficher la fiche technique TPP0850

Sonde haute tension : 800 MHz, 50 X, 2,5 kV, asymétrique, TekVPI

Configuration et devis
Sondes haute tension différentielles
Lien vers la fiche technique Sonde Description Configuration et devis
Afficher la fiche technique TDP0500 Sonde différentielle : 500 MHz, 5 X/50 X, +/-42 V, TekVPI Configuration et devis
Afficher la fiche technique TDP1000

Sonde différentielle : 1 GHz, 5 X/50 X, +/-42 V, TekVPI

Configuration et devis
Afficher la fiche technique THDP0100 SONDE différentielle : SONDE DIFFÉRENTIELLE HAUTE TENSION 100 MHZ TekVPI Configuration et devis
Afficher la fiche technique THDP0200 SONDE différentielle : SONDE DIFFÉRENTIELLE HAUTE TENSION 200 MHZ TEKVPI Configuration et devis
Afficher la fiche technique TMDP0200 SONDE différentielle : SONDE DIFFÉRENTIELLE MOYENNE TENSION 200 MHZ, TMPD0200 Configuration et devis
Sondes isolées
Lien vers la fiche technique Sonde Description Configuration et devis
Afficher la fiche technique TIVH02

Sonde différentielle à isolation optique IsoVu, 200 MHz, TekVPI, câble de 3 m, sondes 50X(MMCX50X) et 500X(SQPIN500X) incluses

Configuration et devis
Afficher la fiche technique TIVH02L Sonde différentielle à isolation optique IsoVu, 200 MHz, TekVPI, câble de 10 m, sondes 50X(MMCX50X) et 500X(SQPIN500X) incluses Configuration et devis
Afficher la fiche technique TIVH05

Sonde différentielle à isolation optique IsoVu, 500 MHz, TekVPI, câble de 3 m, sondes 50X(MMCX50X) et 500X(SQPIN500X) incluses

Configuration et devis
Afficher la fiche technique TIVH05L

Sonde différentielle à isolation optique IsoVu, 500 MHz, TekVPI, câble de 10 m, sondes 50X(MMCX50X) et 500X(SQPIN500X) incluses

Configuration et devis
Afficher la fiche technique TIVH08

Sonde différentielle à isolation optique IsoVu, 800 MHz, TekVPI, câble de 3 m, sondes 50X(MMCX50X) et 500X(SQPIN500X) incluses

Configuration et devis
Afficher la fiche technique TIVH08L

Sonde différentielle à isolation optique IsoVu, 800 MHz, TekVPI, câble de 10 m, sondes 50X(MMCX50X) et 500X(SQPIN500X) incluses

Configuration et devis
Afficher la fiche technique TIVM1 Sonde différentielle à isolation optique IsoVu, 1 GHz, TekVPI, câble de 3 m, sondes 5X(IVTIP5X) et 25X(IVTIP25X) incluses Configuration et devis
Afficher la fiche technique TIVM1L Sonde différentielle à isolation optique IsoVu, 1 GHz, TekVPI, câble de 10 m, sondes 5X(IVTIP5X) et 25X(IVTIP25X) incluses Configuration et devis
Accessoire 119414600
Fiche technique Description
Affichage Fiche technique ENSEMBLE DE SONDES ; ENSEMBLE DE SONDE EN CHAMP PROCHE
Accessoire 119660900
Fiche technique Description
Affichage Fiche technique ANTENNE ; PROTECTION CAOUTCHOUC, AVEC CONNECTEUR BNC, KD4 VHF, NON SYNTONISÉE, CAPUCHON CAOUTCHOUC COLLÉ
Accessoire HCTEK54
Fiche technique Description
Affichage Fiche technique Étui de transport rigide
Accessoire RMD5000
Fiche technique Description
Affichage Fiche technique Kit pour montage en baie
Accessoire TPA-N-PRE
Fiche technique Description
Préamplificateur externe, connecteur TPA, entrée SMA
Accessoire TPA-N-VPI
Fiche technique Description
Affichage Fiche technique Adaptateur de sonde entre connecteur de Type N et TekVPI
Fiche technique Accessoire Description
119414600 ENSEMBLE DE SONDES ; ENSEMBLE DE SONDE EN CHAMP PROCHE
119660900 ANTENNE ; PROTECTION CAOUTCHOUC, AVEC CONNECTEUR BNC, KD4 VHF, NON SYNTONISÉE, CAPUCHON CAOUTCHOUC COLLÉ
HCTEK54 Étui de transport rigide
RMD5000 Kit pour montage en baie
Affichage Fiche technique TPA-N-PRE Préamplificateur externe, connecteur TPA, entrée SMA
TPA-N-VPI Adaptateur de sonde entre connecteur de Type N et TekVPI
A side-by-side comparison of the Tektronix MDO4000C and the Keysight 4000 X-Series for one of the most common debug tasks: automated search.
The MDO4000C offers the functions of a high-performance mainstream oscilloscope with the flexibility to add a spectrum analyzer, arbitrary / function generator, a logic analyzer, a protocol analyz...
Take important power supply measurements, including power quality input measurements and switching loss.  Learn important preparations, including probe deskew and current probe degauss.  See power...
Given the approximate frequency of EMI, these techniques will help track down the source of transient RF emissions. They employ a near-field probe with the MDO4000 integrated oscilloscope and spec...
The Tektronix MDO4000C mixed domain oscilloscope can measure digital, analog, and RF signals all at once enabling engineers to troubleshoot complex embedded designs more quickly. Learn more »
Get techniques for in-system checks on Wi-Fi or other wireless modules by simultaneously viewing radio output, transceiver power supply, and RS-232 serial control bus.  Learn how to optimize volta...
In this short video, we demo the CAN FD bus decoding process on the flexible MDO3000 oscilloscope. 
Sometimes bad things happen to good scopes!  Ensure you've got it covered with a Total Product Protection plan from Tektronix, the only coverage plan available for test equipment with accident pro...
A side-by-side comparison of the same waveform measurements performed on both the Tektronix MDO4000C and the Keysight X 4000A shows different results. This is because the Tektronix MDO4000C wavefo...
How do I save and load a reference waveform to a DPO/MSO3000 series oscilloscope?
This Video will explain how to setup, save and load a reference waveform. It can be done through a USB flash drive or by internal memory. This method for using reference waveforms can be applied to all MSO/DPO2000, MSO/DPO3000, MSO/DPO/MDO4000 serie
Numéro de la FAQ64641 15 Jan 2020
: Can the optional AFG in the MDO3000, MDO4000C and 5 Series MSO be set to sweep?
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 an
Numéro de la FAQ474056 15 Jan 2020
What is the standard warranty on the MDO4000C?
The MDO4000C comes standard with a 3 year product warranty on the instrument and a 1 year warranty on the probes. Note: The MDO4000C is the first product to offer a new service option called the Total Protection Plan with options for 3 or 5 years. Th
Numéro de la FAQ72151 15 Jan 2020
How do I utilize the math channel feature on a DPO/MSO/MDO3000 or DPO/MSO/MDO4000 Series oscilloscope?
There are three main functionalities on the Math button on this scope. They range from Dual Waveform Math, FFT (Fast Fourier Transform), and Advance Math. These three functionalities have a range of abilities and are explained in this short YouTube v
Numéro de la FAQ64656 15 Jan 2020
Programing - How to get and plot a waveform from DPO/MSO/MDO4000 Series scope in Python
There are a few things that are needed for programming with an oscilloscope. First it's important to have a copy of your oscilloscopes Programmers manual. This can be found be searching for manuals on Tek.com and specifying Programmers manual in the
Numéro de la FAQ64796 15 Jan 2020
Do the existing MSO/DPO/MDO4000/B Series application modules work with the MDO4000C?
Yes, almost all work from all legacy MSO/DPO/MDO4000/B series scopes. The only one that has some requirements is the MDO4TRIG which requires a spectrum analyzer option MDO4SA3 or MDO4SA6 be installed on your MDO4000C before RF triggering capabilities
Numéro de la FAQ72146 15 Jan 2020
How do I utilize the XY display feature on a DPO/MSO/MDO4000 Series oscilloscope?
The XY display format can be used to measure the phase relationship between two or more synchronous signals. This measurement technique involves inputting one signal into the vertical system as usual and then another signal into the horizontal system
Numéro de la FAQ64666 15 Jan 2020
How do I set up an Ethernet bus decode?
Make sure your setup is prepared to decode, that you have the needed probes, scope options, test boards, etc. Once you have the options it's important to know how to use the options and probe your signal. To setup Ethernet bus decoding, turn on your
Numéro de la FAQ64731 15 Jan 2020
What MDO4000C options can be upgraded in the field?
Only MSO, AFG & DVM/Frequency counter can be upgraded in the field. The DVM/Frequency counter is available on all models and is free when when the product is registered. Analog bandwidth upgrade options require the instrument to be calibrated at
Numéro de la FAQ72136 15 Jan 2020
How do I erase and declassify an MSO/DPO2000, MSO/DPO/MDO3000, and MSO/DPO/MDO4000 Series oscilloscope?
This example will show you how to declassify the MDO4000/B/C Series oscilloscope. This procedure also applies to the MSO/DPO4000/B, MSO/DPO/MDO3000, and the MSO/DPO2000/B series of oscilloscope.The first step in the declassification process is TekSec
Numéro de la FAQ66231 15 Jan 2020
How can I change the TekVISA Instrument descriptor “device name” used to identify the oscilloscopes to which I routinely connect?
Open TekVISA V4.0.0+ OpenChoice Instrument Manager by selecting Start -> All Programs -> TekVISA ->  OpenChoice Instrument Manager.Select (highlight) the Instrument descriptor listed in the Instruments list for the connected Oscilloscope.Cli
Numéro de la FAQ66181 15 Jan 2020
I recently registered our Tektronix oscilloscope, updated the firmware and am currently trying to activate the free DVM & Frequency Counter.  I don’t see any software downloads for activating the DVM. Am I doing something wrong, or looking in the wrong spot?
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 folde
Numéro de la FAQ468046 15 Jan 2020
How do I connect an SMA male output to Oscilloscopes with TekVPI BNC inputs?
Use a Tektronix part number 015-0572-XX SMA female to BNC male adapter. This adapter will plug onto the BNC on the front of the scope and connect to a SMA cable. For more questions please press the "Contact Us" button on the right of the screen.   
Numéro de la FAQ63516 15 Jan 2020
How do I reduce noise on signals using an oscilloscope?
There are many methods to reduce many types of noise on a signal. Tektronix oscilloscopes can do this through bandwidth limiting the scope input, averaging your signal, changing the sampling method to hi-resolution mode, and more. This video demonstr
Numéro de la FAQ64706 15 Jan 2020
What cart does my scope use?
Below are the Instrument Carts that can be purchased from Tektronix.                                         K4000                                                                             K420                              K475 More information can
Numéro de la FAQ64561 15 Jan 2020
When should I use MagniVu on my oscilloscope?
MagniVu allows you to have higher resolution to accurately determine edge placement on your digital data. It helps you to make precise timing measurements on digital edges. On the MSO/MDO4000/B/C and MSO5000/B Series, you can see up to 32 times more
Numéro de la FAQ63886 15 Jan 2020
What is the maximum bit rate a decoded SPI bus can trigger on?
Different oscilloscopes have different triggering circuitry therefor the limits of what speeds can be achieved vary by scope. Please use the following table to easily look up your scope and determine your max SPI bus trigger level.  For more question
Numéro de la FAQ62256 15 Jan 2020
How do I Set Up a LIN serial Bus decode?
For doing Local Interconnect Network (LIN) bus decode Tektronix recommends using a DPO/MSO/MDO series oscilloscope. This feature can be purchased as a module or option key on any of these types of oscilloscopes. Start by turning it on the bus channel
Numéro de la FAQ64781 15 Jan 2020
Can my oscilloscope operate on 400Hz power?
Most scopes have a wide range of operating voltages and frequencies, a full list can be found in the user manual of your specific oscilloscope. If you're having trouble finding your answer or can't find the manual, please call our Technical Support C
Numéro de la FAQ63266 15 Jan 2020
When analog bandwidth is upgraded on a MDO4000C do we get new probes?
MDO4000C scopes with or less than 500MHz analog bandwidth come standard with TPP0500B 500MHz passive probes, one per channel. If upgrade to 1GHz analog bandwidth you will receive TPP1000 1GHz passive probes that come with the upgrade. 
Numéro de la FAQ72126 15 Jan 2020
Is Analog BW upgradable on the MDO4000C and can it be upgraded in the field?
Yes, the MDO4000C analog bandwidth has upgradable bandwidth options. Once purchased it does require a new calibration at Tektronix Service Center. 
Numéro de la FAQ72121 15 Jan 2020
How do I set up a I2C Bus Decode?
The procedure to set up a I2C bus decode and trigger is simple once you understand the basics. First you have to have the correct module or scope option. Second make sure your signal is on screen and taking up as much of the DAC as possible with good
Numéro de la FAQ64756 15 Jan 2020
How do I configure the LAN settings on an MDO4000C series oscilloscope?
This procedure also applies to the DPO/MSO/MDO4000B series oscilloscopes. As it stands now, all 4000 series scopes  require a live network connection  be made on the scope in order to set and save LAN settings. If the scope does not have a network co
Numéro de la FAQ66236 15 Jan 2020
When customer upgrades bandwidth on a MDO4000C, will the warranty be 3 years from the date of bandwidth upgrade?
No, the warranty does not get reset with the purchase of a bandwidth upgrade or spectrum analyzer upgrade. However, the instrument is returned from the Tektronix Service Center fully calibrated. If you have further questions please connect with our T
Numéro de la FAQ72156 15 Jan 2020
How do I utilize the measurement features on a DPO/MSO/MDO3000 and DPO/MSO/MDO4000 Series oscilloscope?
The Measurements are the same as the DPO/MSO2000 Series scopes. By going into the measurement menu you can add and remove up to 4 measurements. You can gate the measurements which allows you to only measure the part of the captured waveform that you
Numéro de la FAQ64651 15 Jan 2020
How do I set up a CAN bus decode?
Depending on what scope you have will depend on what options are availiable for decoding your CAN signal. For all the DPO/MSO2000/3000/4000/5000 and MDO3000/4000 Series scopes there are modules or license keys that can be purchased. Once you have one
Numéro de la FAQ64751 15 Jan 2020
Why isn’t the TPP1000 (Tektronix Passive Probe 1GHz) compatible with my scope?
Short answer is that if your scope doesn’t have the notched key that allows the probe to connect, then the TPP probe requires a different termination resistance than what your scope can provide. Long answer is that traditionally, passive probes (i
Numéro de la FAQ467701 15 Jan 2020
What are some of the benefits of the TekVPI probe interface?
The biggest benefits of the TekVPI™ probe interface are versatility and ease of use. Oscilloscopes with TekVPI interface support a wide range of probes including TekVPI probes, BNC and TekProbe-BNC Level 1 probes, and TekProbe-BNC Level 2 probes (v
Numéro de la FAQ56016 15 Jan 2020
How do I set up a USB bus decode?
First you must have the USB module or option key that enables USB decoding for your scope as well as proper probes. For help finding the right probe use our probe selector tool. When you go into the bus option you must select USB and then make sure y
Numéro de la FAQ64726 15 Jan 2020
How do I run a Signal Path Compensation (SPC) on an DPO/MSO/MDO4000 Series oscilloscope?
Signal Path Compensation (SPC) should be run anytime you are getting DC offsets in your signals, or your scope has moved locations and might have changed temperature, or if it's been more then a month since your last SPC. This is a standard procedure
Numéro de la FAQ64681 15 Jan 2020
What's included in the MDO3000 and MDO4000C DDU option? 
The Distribution Demo Unit (DDU) option on Tektronix oscilloscopes is an option provided to distributors for demoing scopes to customers with a set time limit before it expires. Questions arise about what's included in the MDO3000 and MDO4000C Series
Numéro de la FAQ72196 15 Jan 2020
What probes are supported on the RF input of the MDO3000 and MDO4000 series?
The RF input on the MDO3000 and MDO4000 series has an N connector, so the RF input can support cables, antennas, and other adapters typically used with a spectrum analyzer.  The RF input is 50 ohms and it is AC coupled.  Below is a listing of some
Numéro de la FAQ64506 15 Jan 2020
What is aliasing and how do I detect it and fix it on my oscilloscope?
Aliasing is basically a form of under sampling and what is displayed on the scopes is an indistinguishable waveform. The under sampled waveform is then contstructed to look like a slower frequency waveform or a flat line in the case of the sample rat
Numéro de la FAQ64691 15 Jan 2020
Programing - How do I get a Screen Capture from DPO4000 scope using Python?
There are a few things that are needed for programming with an oscilloscope. First it's important to have a copy of your oscilloscopes Programmers manual. This can be found be searching for manuals on Tek.com and specifying Programmers manual in the
Numéro de la FAQ64791 15 Jan 2020
How Do I Set Up a Parallel Bus Decode?
For doing Parallel Bus decode Tektronix recommends using a MSO or MDO + MSO option Series oscilloscopes. This feature comes standard in the Bus menu and can be used in a variety of ways. Start by turning it on, selecting the channel and setting your
Numéro de la FAQ64771 15 Jan 2020
What are the primary differences between the DPO/MSO4000B, MDO4000, MDO4000B, and MDO4000C?
The 4000 Series Mixed Domain Oscilloscopes (MDO) continues to be the only true RF/Time domain syncronized instrument on the market. The major differences between revisions of the DPO/MSO/MDO4000 Series are described below. Please note the MDO4000C re
Numéro de la FAQ72111 15 Jan 2020
Can active probes with TekProbe interface (such as a P6205) be used on the DPO4000B or MSO4000B series scopes?
Yes. A TPA-BNC adaptor is required for people to connect legacy TekProbe interface probes to the new TekVPI interface. The adapter works on any TekVPI scopes inlcuding the MSO/DPO/MDO4000/B/C, MSO/DPO/MDO3000 MSO/DPO2000/B or MSO/DPO5000/B or DPO7000
Numéro de la FAQ60416 15 Jan 2020
My company purchased a Tektronix MDO4104C oscilloscope last year and we purchased three application modules. They are not showing up on our scope anymore and we would like some help getting them back.
Push Utility on the front panel. If needed, push Utility Page on the lower menu and turn multipurpose knob a to select Config.  Push Manage Modules and Options on the lower menu, and then push License Type on the side menu until “Modules” is selected
Numéro de la FAQ468031 15 Jan 2020
What feature does the DPO4BND included?
DPO4BND includes the features for the following modules. ·         DPO4AERO ·         DPO4AUDIO ·         DPO4AUTO ·         DPO4COMP ·         DPO4EMBD ·         DPO4ENET ·         DPO4LMT ·         DPO4PWR ·         DPO4USB ·         DPO4
Numéro de la FAQ72101 15 Jan 2020
How can I increase the measurement accuracy using automated measurements vs cursors?
While Cursors are quick and easy at approximating measurements, using the automated measurements can give you a much better and accurate measurement results. Here are some techniques to be successful in making accurate measurements. Always use automa
Numéro de la FAQ62606 15 Jan 2020
Why does the Tkdpo2k3k4k_ReadWaveform() function in the Tkdpo2k3k4k IVI-C driver time out every time I call it when I am connected to the instrument via Ethernet? The function call works fine over USB, but over Ethernet it always times out.
The Tkdpo2k3k4k_ReadWaveform() function makes use of the Service Request Event in VISA so the scope can notify the driver when it has completed its acquisition and the waveform data is ready to be fetched as opposed to the driver polling the scope fo
Numéro de la FAQ72221 15 Jan 2020
Is there a mictor adapter for the P6616 (logic probe for MSO5000B, MSO4000B, and MDO4000C + MDO4MSO) or P6516 (logic probe for the MSO4000 Series) or the P6316 (logic probe for MSO2000, MSO3000, MDO3000 + MDO3MSO Series)?
A mictor adapter is available from our partner Nexus Technologies. Use the mictor adapter NEX-HD2HEADER http://www.nexustechnology.com/products/laAccessories/hd2header/  
Numéro de la FAQ59716 15 Jan 2020
Companies such as National Instruments and LeCroy sell USB-to-GPIB adapters. How do their adapters compare to the TEK-USB-488?
The products from National Instruments (GPIB-USB-B or GPIB-USB-HS) and LeCroy (WS-GPIB) are USB host to GPIB device adapter. These would be used for instruments that have a GPIB interface with controllers that have a USB port. The TEK-USB-488 was des
Numéro de la FAQ56456 15 Jan 2020
How do I mount a network drive on my MDO3000 or MDO4000C oscilloscope?
This procedure also applies to the DPO/MSO/MDO4000/4000B series oscilloscopes.  Note: This Mount a network drive will not work with a direct (peer-to-peer) connection. Must go through your local DNS server. To begin, press the “Menu” button in the S
Numéro de la FAQ66201 15 Jan 2020
Why Should My Signal Fit Within The Screen Of My Tektronix Oscilloscope?
Scaling your signal to fit within the screen will remove signal distortion caused by clipping. Clipping is caused by exceeding the limits of the instrument's input. Tektronix's digital oscilloscopes are designed such that each division is 25 digital
Numéro de la FAQ60306 15 Jan 2020
Why do I see 16 flat lines for the MSO digital logic inputs when the same signals are displayed properly on the analog channels and all channels are setup for valid trigger threshold levels?
A common mistake for some, we first recommend verifing that the front panel MSO digital probe is properly connected by squeezing the probe's side latch buttons to un-plug, remove the probe then re-insert the probe label side up into the front panel r
Numéro de la FAQ60251 15 Jan 2020
The data sheet for my oscilloscope says that the vertical input sensitivity is 1 mV/div to 10 V/div in 1 MΩ mode. But I turn the Vertical Scale control fully clockwise and I can only get down to 10 mV/div. What am I doing wrong?
You probably aren't doing anything wrong. But you do have a 10X probe attached to that channel, right? The 1 mV/div specs relate to the oscilloscope inputs. If the signal’s source impedance is relatively low (<< 1 MOhm), the signal’s frequenc
Numéro de la FAQ58571 15 Jan 2020
How do I clear my memory using TekSecure on a MSO/DPO/MDO4000 Series oscilloscope?
This procedure for clearing the memory on oscilloscope can be applied to the DPO/MSO/MDO4000, DPO/MSO3000 and DPO/MSO2000 Series oscilloscope families. By clearing the memory you will lose all saved reference waveforms, saved setups and all other set
Numéro de la FAQ64686 15 Jan 2020
Can the P6316, P6516, or P6616 logic probes be used interchangeably?
The simple answer is no they can't be used interchangeably. The front end of the logic channels are different so different logic probes are needed between the scopes.   For MSO2000/B, MSO3000, and MDO3000 Series oscilloscopes, only the P6316 logic
Numéro de la FAQ59166 15 Jan 2020
What are the acquisition bands in the MDO4000, MDO4000B, and MDO4000C?
The acquisition bands are as follows: 1) 9kHz - 3.75 GHz (MDO4000B/C) or 50 kHz - 3.75 GHz (MDO4000)2) 2.75 GHz - 4.5 GHz3) 3.5 GHz - 6.0 GHzThese three bands overlap, allowing the MDO to have a 1 GHz capture bandwidth at all center frequencies and u
Numéro de la FAQ69341 15 Jan 2020
I cannot see my signal on the Oscilloscope. What can I do?
You have many options to help diagnose this issue, below are a few suggestions to get started. If you find yourself needing more help, please connect with our Technical Support Center. You can get started by pressing the "Contact Us" button on the r
Numéro de la FAQ63686 15 Jan 2020
I could not find any information regarding the increase in bits in resolution for HiRes mode. Is there any information available?
The increase in bits in resolution depends on the decimation ratio.  The decimation ratio can be determined as follows:D = MFs / FsMFs is the maximum non-interleaved sampling frequency of the scope.  For example: 5 GS/s for the DPO4104B or 2.5 GS/s f
Numéro de la FAQ55421 15 Jan 2020
What probe interface does my oscilloscope have?
Oscilloscope series Probe interface CSA7000/CSA7000B TekConnect DPO2000 TekVPI DPO3000 TekVPI DPO4000/DPO4000B TekVPI DPO5000 / DPO5000B TekVPI DPO7000 TekVPI DPO70000/DPO70000B/DPO70000C TekConnect DSA70000/D
Numéro de la FAQ64251 15 Jan 2020
Can the MDO3000 capture the time domain and the frequency domain simultaneously?
The MDO3000 is most importantly an oscilloscope, but has a total of 6 different instruments individually built into it. Designed in such a way to minimize the clutter on your bench but give you the power and versatility you need. Unfortunately to be
Numéro de la FAQ69306 15 Jan 2020
How do I Set up a Military Standard 1553 serial bus decode?
For doing Military Standard 1553 bus decode Tektronix recommends using a DPO/MSO/MDO 2000 or higher series oscilloscope. This feature can be purchased as a module or option key on any of these types of oscilloscopes. Start by turning it on the bus ch
Numéro de la FAQ64776 15 Jan 2020
Why does my MDO4000C Series scope cause my USB flash drive to pop up with a scan and fix message on my PC?
The MDO4000C products have a new Linux kernel. The security settings of this kernel require that any USB flash drive that is removed without unmounting get tagged as a suspicious device. This can be seen when a drive is written to on the scope, remov
Numéro de la FAQ72166 15 Jan 2020
What is enhanced security option MDO4SEC on the MDO4000C?
Option MDO4SEC add’s enhanced instrument security to enable password protected control of turning on/off all instrument ports and instrument firmware update functionality. It is a one-time permanent upgrade.
Numéro de la FAQ72141 15 Jan 2020
How do I set up a RS232 bus decode?
The procedure to set up a RS232 bus decode and trigger is simple once you understand the basics. First you need to have the correct module or scope option. Second make sure your signal is on screen and taking up as much of the screen as possible with
Numéro de la FAQ64761 15 Jan 2020
Do we get a Spectrum Analyzer equal to the analog bandwidth with a purchase of the MDO4000C?
No, all MDO4000C come without Spectrum Analyzer (SA) options. For flexibility you can now order the base unit and add either option MDO4SA3 (3GHz RF channel) or MDO4SA6 (6GHz RF channel). When MDO4SA3 or MDO4SA6 is NOT ordered, the oscilloscope comes
Numéro de la FAQ72131 15 Jan 2020
I downloaded and Installed OpenChoice Desktop, but it doesn't recognize my scope.
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
Numéro de la FAQ474266 15 Jan 2020
Will the P6516 Logic Probe work on my MSO4000B, MDO4000B and MDO4000C Series oscilloscopes?
The P6516 logic probe was only used with the original MSO4000 series. For the subsequent MSO4000B, MDO4000B and MDO4000C Series oscilloscopes, the P6516 was replaced by the P6616 logic probe. The P6616 logic probe will not work on the original MSO40
Numéro de la FAQ246206 15 Jan 2020
Which probes are compatible with oscilloscopes with the TekVPI probe interface?
There are a couple different types of TekVPI interfaces, one with a notch and one without. The notch was implemented later and was put in place because the front end was designed differently and communicates uniquely with those types of probes. Spe
Numéro de la FAQ56226 15 Jan 2020
Does Tektronix have a 12-bit oscilloscope?
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
Numéro de la FAQ69266 15 Jan 2020
KickStart Instrument Control Software Datasheet
KickStart Software simplifies what you need to know about your instrument so that in just minutes you can take the instrument out of the box and get real data on your device.  KickStart Software enables quick test setup and data visualization when us

Numéro du document : 1KW-60965-4
Datasheet 12 Jan 2020
MDO4000 Series Mixed Domain Oscilloscopes (Replaced by MDO4000B)
Replaced by the MDO4000B -- Introducing the world’s first and only oscilloscope with a built-in spectrum analyzer. For the first time ever, you can capture time-correlated analog, digital, and RF signals for a complete system view of your device. See

Numéro du document : 48W-26875-4
Datasheet 12 Jan 2020
Oscilloscopes multidomaines
Oscilloscope intégré 6-en-1 personnalisable qui peut entièrement être mis à niveau avec des aperçus synchronisés des signaux analogiques, numériques et RF

Numéro du document : 48F-60277-9
Datasheet 29 Dec 2019
TEKVISA Connectivity Software - V4.2.0
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 c

Numéro de référence : 066093812
Software 27 Dec 2019
KickStart Instrument Control Software Version 2.2.0 (Windows 10, 8, 7 compatible)
"KickStart Software for the PC enables quick test setup and data visualization when using one or more instruments. Key Features • Save time by automating data collection of millions of readings. • Set up a multi-instrument test with the ab

Numéro de référence : KICKSTART-2.2.0
Software 27 Dec 2019
Advanced Radar Analysis: Tools for Measuring Modern Radar Application Note
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 testingu

Numéro du document : 37W-23378-4
Note d’application 27 Dec 2019
Power Supply Measurement & Analysis with Bench Oscilloscopes
Today’s power supplies are driving to a level of efficiency never seen before, requiring design engineers to perform specialized power measurements that are time-consuming and complex. Learn how using a Tektronix Bench Oscilloscopes provides fast, si

Numéro du document : 3GZ-23612-6
Note d’application 27 Dec 2019
MDO4000C Series vs. Rohde & Schwarz FSC Spectrum Analyzer Comparison
This fact sheet compares specifations and features of the MDO4000 Series to the Rohde & Schwarz FSC Spectrum Analyzer

Numéro du document : 48W-29950-0
Compétitif 27 Dec 2019
Measuring Wireless Power Charging Systems for Portable Electronics
This application note shows methods for testing a Qi wireless charging system.  The device under test uses the Qi interface standard, developed by the Wireless Power Consortium. The application note explains how to use a mixed domain oscilloscope to 

Numéro du document : 48W-28034-1
Note d’application 27 Dec 2019
Practical EMI Troubleshooting
After failing an EMI compliance test, where do you start? This application note gives guidance on connecting the information in your test report to a source of radiated emissions.  It provides information that applies to any spectrum analyzer -- such

Numéro du document : 3GW-30828-2
Note d’application 27 Dec 2019
How to Use a Mixed Signal Oscilloscope to Test Digital Circuits
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 a

Numéro du document : 3GT-24008-4
Note d’application 27 Dec 2019
Debugging Serial Buses in Embedded System Designs
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

Numéro du document : 48W-19040-21
Note d’application 27 Dec 2019
How to Minimize Probe Loading with Low Capacitance Probes
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

Numéro du document : 51W-26294-6
Note d’application 27 Dec 2019
Fundamentals of the MDO4000 Series Mixed Domain Oscilloscope
Today’s design engineers often must debug complex devices, with integrated analog and digital signals, serial buses, and now RF signals for wireless communication. In this application note, learn how a Mixed Domain Oscilloscope (MDO) offers time-cor

Numéro du document : 48T-26923-1
Note d’application 27 Dec 2019
Wave Inspector® Navigation and Search: Simplifying Waveform Analysis
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.

Numéro du document : 48T-19039-9
Note d’application 27 Dec 2019
Wi-Fi: Overview of the 802.11 Physical Layer and Transmitter Measurements
Wi-Fi is a technology that allows many electronic devices to exchange data or connect to the internet wirelessly using radio waves. The Wi-Fi Alliance defines Wi-Fi devices as any "Wireless Local Area Network (WLAN) products that are based on the Ins

Numéro du document : 37W-29447-0
Guide de présentation 27 Dec 2019
MDO4000C Series
Oscilloscope User Manual

Numéro de référence : 077116700
Manual 26 Dec 2019
MDO4000C Series
Oscilloscope

Numéro de référence : 077116702
Manual 26 Dec 2019
MDO4000C Series
Oscilloscope User Manual

Numéro de référence : 077116701
Manual 26 Dec 2019
SOLUTIONS FOR SCIENTIFIC AND ENGINEERING RESEARCH

Numéro du document : 55W_30503_2
Brochure 26 Dec 2019
4 Series MSO vs MDO4000C
This fact sheet compares important specifications and features of the Tektronix 4 Series MSO Mixed Signal Oscilloscope to those of the Tektronix MDO4000 Series Oscilloscopes.

Numéro du document : 48W-61606-0
Fiche d’informations 26 Dec 2019
Tektronix Probe Selection Guide
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 yo

Numéro du document : 60W_14232_10
Guide de sélection de produit 26 Dec 2019
Power Supply Measurement and Analysis Primer
A power supply is a component, subsystem, or system that converts electrical power from one form to another; commonly from alternating current (AC) utility power to direct current (DC) power. The proper operation of electronic devices ranging from pe

Numéro du document : 55T-18412-6
Guide de présentation 26 Dec 2019
MDO How it Works
Look inside a Mixed Domain Oscilloscope to see how it acheives its spectrum analyzer performance, including high dynamic range and exceptionally high capture bandwidth with dedicated hardware and algorithms.

Numéro du document : 48W-60187-2
Dossier technique 26 Dec 2019
Automotive Solutions Brochure
The pace of change in automotive electronics has never been faster, resulting in safer, more efficient, and more connected vehicles. Technologies such as high-speed data communications, wireless communications, radar, and power supplies underpin thes

Numéro du document : 45W-60646_1
Brochure 26 Dec 2019
Testing a New Switch Mode Power Supply Design Poster
Get a quick overview of the key measurements for verifying a new switch mode power supply (SMPS) design.  This poster shows key measurements, from verifying your prototype during initial startup, to optimizing switching loss and magnetic losses, to v

Numéro du document : 46W-60156-0
Affiche 26 Dec 2019
Oscilloscope Selection Guide
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

Numéro du document : 46W-31080-7
Guide de sélection 26 Dec 2019
Serial Support Using Tektronix Oscilloscopes and Optional Software
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.  

Numéro du document : 55W-29028-13
Guide de sélection 26 Dec 2019
Capacitance and Inductance Measurements Using an Oscilloscope and a Function Generator
If you don't have an LCR meter in your lab, or you want to demonstrate the behavior of capacitors and inductors under sinusoidal stimulus, an oscilloscope and a function generator can help you to do a simple, transparent impedance measurement. You ca

Numéro du document : 75W-28152-0
Note d’application 26 Dec 2019
MDO4000C Series
Mixed Domain Oscilloscope

Numéro de référence : 077117801
Manual 26 Nov 2019
MDO4000C, MDO4000B, MDO4000, MSO4000B, DPO4000B, and MDO3000 Series
Digital Oscilloscopes

Numéro de référence : 077051009
Manual 26 Nov 2019
MDO4000C, MDO4000B, MDO4000, MSO4000B, DPO4000B, and MDO3000 Series
Digital Oscilloscopes

Numéro de référence : 077051007
Manual 26 Nov 2019
MDO4000C Series Oscilloscope
Security and Declassification Instructions

Numéro de référence : 077118000
Manual 26 Nov 2019
MDO4000C Series
Oscilloscope Service Manual

Numéro de référence : 077117900
Manual 26 Nov 2019
MDO4000C Series vs. Rohde & Schwarz FSL Spectrum Analyzer Comparison
This fact sheet compares specifications and features of  the MDO4000 Series to the Rohde & Schwarz FSL Spectrum Analyzer

Numéro du document : 48W-29951-0
Compétitif 26 Nov 2019
MDO Signal Path Teardown Poster
MDO4000 and MDO3000 Mixed Domain Oscilloscopes deliver uncompromised oscilloscope performance combined with spectrum analyzer performance on par with standalone spectrum analyzers. But how do they do it? The answer lies in Tektronix’ custom ASICs, a

Numéro du document : 48W-60186-2
Affiche 26 Nov 2019
MDO4000C Series vs. Rohde & Schwarz FSV Spectrum Analyzer Comparison
This fact sheet compares the specifications and features of the MDO4000 Series to the Rohde & Schwarz FSV Spectrum Analyzer

Numéro du document : 48W-29952-0
Compétitif 26 Nov 2019
MDO4000 Series vs. Regular Oscilloscope FFTs
Examine the MDO4000 Series vs a regular oscilloscope FFTs.

Numéro du document : 48W-28711-0
Compétitif 26 Nov 2019
MDO4000C and MDO3000 Series Comparison Fact Sheet
This fact sheet compares features and specifications of MDO4000C and MDO3000 Series mixed domain oscillscopes.

Numéro du document : 48W-30086-2
Guide de sélection 26 Nov 2019
Accurate Measurements Matter
MDO4000C Series measurements are taken on actual acquisition data - providing as much data to the measurement algorithms as possible. The Keysight 4000 X-Series uses the lower resolution display data, which can produce measurements that are inaccurat

Numéro du document : 55W-61055-0
Fiche d’informations 26 Nov 2019
Keysight N9320B Spectrum Analyzer vs MDO4000C Comparison
Side-by-side comparison on important specifications and features like correlating RF to other system signals and exceptionally wide capture bandwidth.

Numéro du document : 48W-29949-0
Compétitif 26 Nov 2019
Keysight N9322C Spectrum Analyzer vs MDO4000C Series Comparison
Side-by-side comparison on important specifications and features like correlating RF to other system signals and exceptionally wide capture bandwidth.

Numéro du document : 48W-29948-0
Compétitif 26 Nov 2019
Keysight N9000A CXA Spectrum Analyers vs MDO4000C Series Comparison
Side-by-side comparison on important specifications and features like correlating RF to other system signals and exceptionally wide capture bandwidth.

Numéro du document : 48W-29946-0
Compétitif 26 Nov 2019
Identifying Setup and Hold Violations with a Mixed Signal Oscilloscope
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

Numéro du document : 55W-61095-0
Note d’application 26 Nov 2019
Introduction to Video Measurements
In this application note, we demonstrate using a MSO/DPO5000, MDO/MSO/DPO4000 and MDO/MSO/DPO3000 Series Oscilloscope to make a variety of video measurements that are common in standard and high definition systems.

Numéro du document : 3GW-20975-2
Note d’application 26 Nov 2019
Keysight 4000X vs MDO4000C Competitive Comparison
Side-by-side comparison on important features like serial triggering and decode, waveform navigation and search, waveform capture rate, digital debug with MSO, and more.

Numéro du document : 3GW-29111-3
Compétitif 26 Nov 2019
ARBEXPRESS WAVEFORM CREATION AND EDITING SW, V3.5
ArbExpress is a waveform creation and editing tool for Tektronix AWG and AFG instruments. It provides an easy to use and efficient way to create and edit waveforms, transfer waveforms to and from Arbitrary Waveform Generators (AWG), and Arbitrary/Fun

Numéro de référence : 066146105
Software 12 Nov 2019
TEKVISA CONNECTIVITY SOFTWARE - V4.1.1
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 c

Numéro de référence : 066093811
Software 12 Nov 2019
MDO4KC FIRMWARE RELEASE - v1.10
MDO4kC firmware update

Numéro de référence : 066179905
Software 12 Nov 2019
SignalVu-PC Vector Signal Analysis Software - V3.16.0014
SignalVu-PC VSA software brings the analysis engine of the Tektronix Real-Time Signal Analyzer (RTSA) to your computer, enabling you to analyze live signals from RSA306, RSA500, RSA600, RSA7100A Spectrum Analyzers and MDO4000B/C Series oscilloscopes,

Numéro de référence : 066143419
Software 12 Nov 2019
SignalVu-PC Vector Signal Analysis Software - V3.23.0022
SignalVu-PC VSA software brings the analysis engine of the Tektronix Real-Time Signal Analyzer (RTSA) to your computer, enabling you to analyze live signals from RSA306, RSA500, RSA600, RSA7100A Spectrum Analyzers and MDO4000B/C Series oscilloscopes,

Numéro de référence : 066143422
Software 12 Nov 2019
KickStart Instrument Control Software Version 2.1.0 (Windows 10, 8, 7 compatible)
"KickStart Software for the PC enables quick test setup and data visualization when using one or more instruments. Key Features • Save time by automating data collection of millions of readings. • Set up a multi-instrument test with the ab

Numéro de référence : KICKSTART-2.1.0
Software 12 Nov 2019
SignalVu-PC Vector Signal Analysis Software - Release Candidate - V3.17.0013
SignalVu-PC VSA software brings the analysis engine of the Tektronix Real-Time Signal Analyzer (RTSA) to your computer, enabling you to analyze live signals from RSA306, RSA500, RSA600, RSA7100A Spectrum Analyzers and MDO4000B/C Series oscilloscopes,

Numéro de référence : 066143420
Software 12 Nov 2019
Tektronix Openchoice Desktop Application TDSPCS1 - v2.6
The Tektronix OpenChoice Desktop free application lets you capture oscilloscope screen images, waveform data, and settings from a Microsoft Windows computer. After installing the software, refer to the section “Connecting to a PC” in your instrument’

Numéro de référence : 066093914
Software 12 Nov 2019
MDO4000C FIRMWARE V1.04
This firmware is for all MDO4000C Series oscilloscopes.

Numéro de référence : 066179902
Software 12 Nov 2019
DPO2000, MSO2000, DPO3000 and DPO4000, MSO3000 and MSO4000, MDO3000 and MDO4000 and MDO3 IVI Driver - V1.5
The Tektronix MSO/DPO2000, MDO/MSO/DPO3000, MDO/MSO/DPO4000 and MDO3 IVI Driver is an IVI class-compliant driver. It complies with Scope Class specifications (IVI-4.1) as defined by the IVI foundation. An IVI class-compliant specific driver for an os

Numéro de référence : 066133104
Software 12 Nov 2019
KickStart Instrument Control Software Version 2.1.1 (Windows 10, 8, 7 compatible)
"KickStart Software for the PC enables quick test setup and data visualization when using one or more instruments. Key Features • Save time by automating data collection of millions of readings. • Set up a multi-instrument test with the ab

Numéro de référence : KICKSTART-2.1.1
Software 12 Nov 2019
ARBEXPRESS WAVEFORM CREATION AND EDITING SW, V3.4
ArbExpress is a waveform creation and editing tool for Tektronix AWG and AFG instruments. It provides an easy to use and efficient way to create and edit waveforms, transfer waveforms to and from Arbitrary Waveform Generators (AWG), and Arbitrary/Fun

Numéro de référence : 066146104
Software 12 Nov 2019
Secrets of MDO Performance
Learn how:The MDO4000 Series are able to leverage oscilloscope acquisition technology to achieve spectral fidelity on par with entry level spectrum analyzers.The design techniques used in the MDO4000 Series allow them to achieve spectral fidelity far

Numéro du document : 48W-28882-2
Livre blanc 12 Nov 2019
Tektronix MDO4000C Series Oscilloscopes
This demonstration guide takes you through a series of step-by-step demonstrations on how the MDO4000C Series oscilloscope helps simplify the debug of mixed signal designs with its powerful functionality and integrated test instruments. This oscillos

Numéro du document : 48W-60217-0
Manuel d’instructions 12 Nov 2019
Replicating Real World Signals with an Arbitrary/Function Generator
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.

Numéro du document : 76W-18661-2
Note d’application 12 Nov 2019