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Adapters, replacement probe tips and more accessories for your oscilloscope or probe.
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Keithley Instruments & Products
Keithley Products and Application Insights Help Engineers Innovate
For more than 70 years, Keithley, a Tektronix company, has been designing, manufacturing and marketing advanced electrical test instruments and systems for the specialized needs of electronics manufacturers in high performance production testing, process monitoring, product development and research.
Keithley has approximately 500 products that are used to source, measure, connect, control or communicate direct current (DC) or pulsed electrical signals. Keithley customers include scientists and engineers in the worldwide electronics industry involved with 3D sensing, advance materials research, semiconductor device development and fabrication, and the production of end products such as portable wireless devices.
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Compare and choose the best oscilloscope for your use
Product series comparison
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| 3 Series MDO Mixed Domain Oscilloscope | 4 Series MSO Mixed Signal Oscilloscope | TBS1000 | TDS2000C | TBS2000B Oscilloscope | MSO2000B / DPO2000B | MDO3000 | TPS2000 | TDS3000 | MDO4000 | MSO5000 / DPO5000 | 5 Series MSO | 5 Series MSO Low Profile | 6 Series MSO | 6 Series Low Profile Digitizer | DPO7000 | DSA8300 | MSO/DPO70000 | DPO70000SX | |
| Bandwidth |
100 MHz - 1 GHz |
200 MHz to 1.5 GHz |
30 MHz - 200 MHz | ||||||||||||||||
| Analog Channels |
2 or 4 |
4 or 6 |
2-4 | ||||||||||||||||
| Digital Channels |
16 (optional) |
Up to 48 (optional) |
- | ||||||||||||||||
| Sample Rate |
2.5 GS/s - 5 GS/s |
6.25 GS/s |
1 GS/s - 2 GS/s | ||||||||||||||||
| Record Length |
10 M |
31.25 M to 62.5 M |
2.5k points | ||||||||||||||||
| Spectrum Analyzer |
Up to 3 GHz (optional) |
- |
- | ||||||||||||||||
| Function Generator Output |
1 (optional) |
1 (optional) |
|||||||||||||||||
| Maximum Waveform Capture Rate |
>280,000 wfm/s |
> 500,000 wfms/s |
- | ||||||||||||||||
| RF Channels |
1 (optional) |
- |
- | ||||||||||||||||
| RF Frequency Range |
9 kHz to 1 GHz or 3 GHz (optional) |
- |
- | ||||||||||||||||
| Trigger Types |
Edge |
Edge |
Edge, Video, Pulse Width | ||||||||||||||||
| Optional Analysis |
I²C/SPI decode |
Advanced Power analysis |
- | ||||||||||||||||
| Vertical Accuracy |
±2.5% for 1 mV/Div |
1% |
|||||||||||||||||
| Rise Time |
4000 ps to 400 ps (100 MHz to 1 GHz) |
2.3 ns to 450 ps (200 MHz to 1.5 GHz) |
7.0 ns - 2.1 ns | ||||||||||||||||
| Display |
11.6 inches, 1920 x 1080 HD |
13.3 in, 1920x1080 HD |
5.7 in (145 mm) to 7 in (177.8 mm), Color | ||||||||||||||||
| Warranty |
3 years |
3 years |
5-year Warranty | ||||||||||||||||
| SA Real Time Capture Bandwidth |
1 GHz (optional), 3 GHz (optional) |
- |
|||||||||||||||||
| Starting Price | US US $3,850 | US US $7,550 | US US $863 |
Introducing two next-gen scopes.
Built for every engineer, every day.
New Series
3 Series MDO Mixed Domain Oscilloscope
New Series
3 Series MDO Mixed Domain Oscilloscope
New Series
3 Series MDO Mixed Domain Oscilloscope
Oscilloscope Probes and Accessories
Choose from a broad portfolio of Tektronix probes and accessories, all perfectly matched to our industry-leading oscilloscopes. With over 100 choices available, select the oscilloscope probe you need for your specific testing application.
IsoVu Isolated Probes
Probing systems make high-resolution measurements in the presence of common mode signals or noise.
IsoVu Isolated Probes
Probing systems make high-resolution measurements in the presence of common mode signals or noise.
IsoVu Isolated Probes
Probing systems make high-resolution measurements in the presence of common mode signals or noise.
IsoVu Isolated Probes
Probing systems make high-resolution measurements in the presence of common mode signals or noise.
IsoVu Isolated Probes
Probing systems make high-resolution measurements in the presence of common mode signals or noise.
IsoVu Isolated Probes
Probing systems make high-resolution measurements in the presence of common mode signals or noise.
Software for your Source Measure Unit
Start sourcing and measuring in minutes, and develop your next application test.
Learning Center
Learn Source Measure Unit (SMU) basics – from individual concepts to key industrial applications such as how to use the SMU in a 2 terminal and 3 terminal device test to obtain IV curves and how an SMU can simplify the test setup and increase productivity.
Whether it was using your dad's scope in the garage in high school, analyzing your first waveform in college, the project you're currently working on or something you're planning to make in the future - we want to know about it.
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#TekScopeStory #TekOneMillion
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TBS1000C 2 Channel Digital Storage Oscilloscope
- Bandwidth 50 MHz - 200 MHz
- Analog Channels 2
- Digital Channels -
- Sample Rate 1 GS/s
TBS2000B Digital Storage Oscilloscope
- Bandwidth 70 MHz - 200 MHz
- Analog Channels 2 or 4
- Digital Channels -
- Sample Rate 1 GS/s to 2 GS/s
2 Series MSO Portable Mixed Signal Oscilloscope
- Bandwidth 70 MHz - 500 MHz
- Analog Channels 2 or 4
- Digital Channels 16 (optional)
- Sample Rate 1.25 GS/s - 2.5 GS/s
3 Series MDO Mixed Domain Oscilloscope
- Bandwidth 100 MHz - 1 GHz
- Analog Channels 2 or 4
- Digital Channels 16 (optional)
- Sample Rate 2.5 GS/s - 5 GS/s
New Series!
4 Series B MSO Mixed Signal Oscilloscope
- Bandwidth 200 MHz to 1.5 GHz
- Analog Channels 4 or 6
- Digital Channels Up to 48 (optional)
- Sample Rate 6.25 GS/s
5 Series B MSO Mixed Signal Oscilloscope
- Bandwidth 350 MHz - 2 GHz
- Analog Channels 4, 6 or 8
- Digital Channels Up to 64 (optional)
- Sample Rate 6.25 GS/s
5 Series MSO Low Profile
- Bandwidth 500 MHz – 1 GHz
- Analog Channels 8
- Digital Channels Up to 64 (optional)
- Sample Rate 6.25 GS/s
6 Series B MSO Mixed Signal Oscilloscope
- Bandwidth 1 GHz - 10 GHz
- Analog Channels 4, 6 or 8
- Digital Channels Up to 64 (optional)
- Sample Rate 50 GS/s
6 Series Low Profile Digitizer
- Bandwidth 1 GHz - 8 GHz
- Analog Channels 4 (SMA)
- Digital Channels -
- Sample Rate 25 GS/s
MSO/DPO70000DX Mixed Signal/Digital Phosphor Oscilloscopes
- Bandwidth 8 GHz - 33 GHz
- Analog Channels 4
- Digital Channels 16 (optional)
- Sample Rate 25 GS/s - 100 GS/s
DPO70000SX ATI Performance Oscilloscope
- Bandwidth 13 GHz - 70 GHz
- Analog Channels 1-4
- Digital Channels -
- Sample Rate 50 GS/s - 200 GS/s
8 Series Sampling Oscilloscope
- Bandwidth 30 GHz
- Analog Channels 4
- Digital Channels -
- Sample Rate 300 kS/s
MDO3000 Mixed Domain Oscilloscope
- Bandwidth 100 MHz - 1 GHz
- Analog Channels 2 or 4
- Digital Channels 16 (optional)
- Sample Rate 2.5 GS/s - 5 GS/s
MDO4000C Mixed Domain Oscilloscope
- Bandwidth 200 MHz - 1 GHz
- Analog Channels 4
- Digital Channels 16 (optional)
- Sample Rate 2.5 GS/s - 5 GS/s
Product series comparison
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TBS1000C 2 Channel Digital Storage Oscilloscope
Request a Demo |
TBS2000B Digital Storage
Oscilloscope
Request a Demo |
2
Series MSO Portable Mixed Signal Oscilloscope
Request a Demo |
3 Series MDO Mixed Domain
Oscilloscope
Request a Demo |
4 Series B MSO Mixed Signal
Oscilloscope
Request a Demo |
5 Series B MSO
Request a Demo |
5 Series MSO Low Profile
Request a Demo |
6 Series B MSO
Request a Demo |
6 Series Low Profile Digitizer
Request a Demo |
MSO/DPO70000DX Mixed
Signal/Digital Phosphor Oscilloscopes
Request a Demo |
DPO70000SX ATI Performance
Oscilloscope
Request a Demo |
8 Series
Sampling Oscilloscope
Request a Demo |
MDO3000 Mixed Domain
Oscilloscope
Request a Demo |
MDO4000C Mixed Domain
Oscilloscope
Request a Demo |
|
| Bandwidth |
50 MHz - 200 MHz |
70 MHz - 200 MHz |
70 MHz - 500 MHz |
100 MHz - 1 GHz |
200 MHz to 1.5 GHz |
350 MHz - 2 GHz |
500 MHz – 1 GHz |
1 GHz - 10 GHz |
1 GHz - 8 GHz |
8 GHz - 33 GHz |
13 GHz - 70 GHz |
30 GHz |
100 MHz - 1 GHz |
200 MHz - 1 GHz |
| Analog Channels |
2 |
2-4 |
2 or 4 |
2 or 4 |
4 or 6 |
4, 6 or 8 |
8 |
4, 6 or 8 |
4 (SMA) |
4 |
1-4 |
1-4 |
2 or 4 |
4 |
| Digital Channels |
- |
- |
16 (optional) |
16 (optional) |
Up to 48 (optional) |
Up to 64 (optional) |
Up to 64 (optional) |
Up to 64 (optional) |
- |
16 (optional) |
- |
- |
16 (optional) |
16 (optional) |
| Sample Rate |
1 GS/s |
1 GS/s to 2 GS/s |
1.25 GS/s all channels; 2.5 GS/s half channels |
2.5 GS/s - 5 GS/s |
6.25 GS/s |
6.25 GS/s |
6.25 GS/s |
50 GS/s |
25 GS/s |
25 GS/s - 100 GS/s |
50 GS/s - 200 GS/s |
300 kS/s |
2.5 GS/s - 5 GS/s |
2.5 GS/s - 5 GS/s |
| Record Length |
20k points |
5 Mpoints |
10 Mpts |
10 M |
31.25 M to 62.5 M |
62.5 M - 500 M |
125 M - 500 M |
62.5 M - 1 G |
125 M - 1 G |
31.25M - 1G points |
62.5M - 1G point |
> 800 M |
10 M |
20 M |
| Spectrum Analyzer |
Standard Math FFT |
Standard Math FFT |
Standard Math FFT |
Built-in dedicated RF path up to 3 GHz (optional) |
Spectrum View with integrated digital down converter; Each channel with 312.5 MHz span,
500M span (optional) |
Spectrum View with integrated digital down converter; Each channel with 312.5 MHz span
standard, 500 MHz span (optional) |
Spectrum View with integrated digital down converter; Each channel with 312.5 MHz span standard, 500 MHz span optional Standard Math FFT |
Spectrum View with integrated digital down converter; Each channel with 1.25 GHz span
standard, 2 GHz span (optional) |
Spectrum View with integrated digital down converter; Each channel with 1.25 GHz span standard, 2 GHz span optional |
Standard Math FFT |
Standard Math FFT |
Standard Math FFT |
Built-in dedicated RF path up to 3 GHz |
Built-in dedicated RF path up to 6 GHz |
| Function Generator Output |
- |
- |
1 (optional, multiplexed with Aux Out) |
1 (optional) |
1 (optional) |
1 (optional) |
1 (optional) |
1 (optional) |
1 (optional) |
- |
- |
- |
1 (optional) |
1 (optional) |
| Maximum Waveform Capture Rate |
- |
10,000 times per second |
- |
>280,000 wfm/s |
> 500,000 wfms/s |
>500,000 wfms/s |
>500,000 wfms/s |
>500,000 (Peak Detect, Envelope acquisition mode), |
>500,000 (Peak Detect, Envelope acquisition mode) |
>300,000 wfms/s |
>300,000 wfms/s |
Record Length / 300 kS/s |
>235,000 - >280,000 wfm/s |
>270,000 - >340,000 wfm/s |
| RF Channels |
- |
- |
- |
1 (optional) |
- |
- |
- |
- |
- |
- |
- |
- |
1 |
1 |
| RF Frequency Range |
- |
- |
- |
9 kHz to 1 GHz or 3 GHz (optional) |
Spectrum View DC to bandwidth of scope (-3dB) |
Spectrum View DC to bandwidth of scope (-3dB) |
Spectrum View DC to bandwidth of scope (-3dB) |
Spectrum View DC to bandwidth of scope (-3dB) |
Spectrum View DC to bandwidth of scope (-3dB) |
- |
- |
- |
9 kHz - 1 GHz |
9 kHz – 3 GHz/ 6 GHz (optional) |
| Trigger Types |
Edge, Pulse Width, Runt, Line |
Edge, Pulse Width, Runt |
Edge, Pulse Width, Timeout, Runt, Logic, Setup/Hold, Rise/Fall, Parallel, Serial Bus (optional) |
Edge |
Edge |
Edge |
Edge |
Edge |
Edge |
Comm, Bus, I2C, SPI, CAN, LIN, Flexray, RS-232/422/485/UART, USB, Edge, B Event Scan, Glitch, Pattern, Runt, Serial Pattern, Setup/Hold, State, Timeout, Transition, Visual, Width, Window |
Edge, B Event Scan, Glitch, Pattern, Runt, Setup/Hold, State, Timeout, Transition, Visual, Width, Window |
Clock Prescale Input |
Edge |
Edge |
| Optional Analysis |
- |
- |
I2C, SPI, RS-232/422/485/UART, CAN, CAN FD, LIN, SENT decode |
I²C/SPI decode |
1-Wire decode |
1-Wire decode |
1-Wire decode |
1-Wire decode |
1-Wire decode |
MIPI® D-PHY Testing (D-PHY), DDR Memory Bus Analysis (DDRA), DPOJET Jitter And Eye Diagram Analysis (DJA), DisplayPort 1.2 Source Test Automation (DP12), Ethernet Compliance Test Solution (ET3), HDMI Compliance Test Solution (HT3), HSIC Electrical Validation and Protocol Decode (HSIC), MHL Advanced Analysis and Compliance Test (MHD), MOST Electrical Compliance and Debug (MOST), MIPI M-PHY Transmitter Debug, Characterization and Compliance Test (M-PHY), PCI Express Transmitter Compliance and Debug (PCE3), SAS 12 Gb/s Test (SAS3), Serial Data Link Analysis Solution Software (SLE, SLA), SFP+ Compliance and Debug (SFP-TX), SignalVu Vector Signal Analysis Software (SVE), Thunderbolt TX Compliance Test (TBT-TX), USB 2.0 Compliance Test Solution (USB), USB 3.0 Transmitter Test (USB3) |
DPOJET Jitter and Eye Diagram Analysis (DJA), Serial Data Link Analysis Visualizer (SDLA64), SignalVu Vector Signal Analysis (SVE) |
Optical PAM4 (PAM4-O) |
CAN/LIN decode |
CAN/LIN decode |
| Vertical Accuracy |
- |
3% |
±2.0% |
±1.5% |
±1% |
±1% |
±1% |
±1% |
50 Ω: ±1.0% of full scale, (±2.0% of full scale at 1mV/div) |
±2% |
±2% |
- |
±1.5% |
±1.5% |
| Automated Measurements |
32 |
32 and FFT function for thorough waveform analysis |
36 |
- |
- |
- |
- |
- |
- |
53 |
53 |
- |
- |
- |
| No. Of Application Modules Range |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
| Rise Time |
7.0 ns - 2.1 ns |
3.5ns~5ns |
5 ns to 950 ps (70MHz to 500MHz) |
4000 ps to 400 ps (100 MHz to 1 GHz) |
2.3 ns to 450 ps (200 MHz to 1.5 GHz) |
175 ps - 1 ns |
350 ps |
400 ps - 40 ps (1 GHz - 10 GHz) |
400 ps - 50 ps (1 GHz - 8 GHz) |
9 ps - 98 ps |
<6ps - 13ps |
Determined by sampling module |
400 ps - 4 ns |
175 ps - 3.5 ns |
| Display |
7-inch(178mm) WVGA color display |
9 inch TFT WVGA |
10.1 inches, 1280 x 800 |
11.6 inches, 1920 x 1080 HD |
13.3 in, 1920x1080 HD |
15.6 in, 1920x1080 HD |
- |
15.6 in, 1920x1080 HD |
- |
12.1 in (308 mm), Color |
6.5 in (165 mm), Color |
- |
9 in. (229 mm), Color |
10.4 in. (264 mm), Color |
| Warranty |
5-year Warranty |
5 years |
1 year |
3 years |
1 years |
1 year |
3 years |
1 year |
1 year |
One-year Warranty |
One-year Warranty |
One-year Warranty |
3 years |
3 years |
| SA Real Time Capture Bandwidth |
- |
- |
- |
1 GHz (optional), 3 GHz (optional) |
Spectrum View: 312.5 MHz, 500 MHz (optional) |
Spectrum View: 312.5 MHz, 500 MHz (optional) |
Spectrum View: 312.5 MHz, 500 MHz (optional) |
Spectrum View: 1.25 GHz, 2 GHz (optional) |
Spectrum View: 1.25 GHz, 2 GHz (optional) |
- |
- |
- |
Up to 3 GHz |
Up to 3.75 GHz |
| Base Price | US $580 | US $1,640 | US $2,870 | US $4,600 | US $9,180 | US $20,100 | Contact Us | US $36,400 | Contact Us | Contact Us | Contact Us | Contact Us | US $7,560 | US $11,600 |
Oscilloscope Probes and Accessories
Choose from a broad portfolio of Tektronix probes and accessories, all perfectly matched to our industry-leading oscilloscopes. With over 100 choices available, select the oscilloscope probe you need for your specific testing application.
Current Probes
Best-in-class bandwidth and sensitivity. Safety Certified.
Low Voltage Differential Probes
Signal fidelity for serial bus PHY measurements.
High Voltage Differential Probes
Industry leading performance up to 6000V. Safety Certified.
IsoVu Isolated Probes
Probing systems make high-resolution measurements in the presence of common mode signals or noise.
Passive Probes
Highest bandwidth, lowest probe loading.
Power Rail Probes
Power rail probes offer low noise, low loading, high bandwidth, and high DC offset specifically for power integrity measurements.
Software for your Oscilloscope
Analyze your most challenging system designs by adding one of our oscilloscope software packages to your scope.
TekScope™ oscilloscope software
Analyze waveforms anytime from anywhere by turning your PC into an oscilloscope with TekScope.
Keithley KickStart Software
Start measuring in minutes without complex programming. Perform I-V characterization and more.
Oscilloscope applications
Oscilloscope Learning Center
Learn how to use oscopes, spectrum analyzers, source measure units, and other instruments to troubleshoot system anomalies, provide measurement insights, debug EMI, and more.Primer
Oscilloscope Basics and Fundamentals
In this comprehensive primer, you can learn everything you need to know about oscilloscope fundamentals, types, systems, setup, and use.
SOLUTION BRIEF
Capacitance and Inductance Measurements Using an Oscilloscope and a Function Generator
Learn about impedance, impedance measurement methods, measurement ranges, and more with real-world examples.
APPLICATION NOTE
Spectrum View: A New Approach to Frequency Domain Analysis on Oscilloscopes
Learn about how Spectrum View analysis allows optimization of both time domain and frequency domain displays independently to offer important insights.
APPLICATION NOTE
How Oscilloscope Probes Affect Your Measurement
Learn how an oscilloscope probe changes the signal you’re measuring at the test point and what probing specifications to look for to minimize probing effects.
Oscilloscope FAQs
What is an oscilloscope?
An oscilloscope, formerly known as an oscillograph (informally scope, oscope, or O-scope), graphically displays electrical signals and shows how they change over time. Learn more about how an oscilloscope works, what they're used for and the types of oscilloscopes.
What is an oscilloscope used for?
Engineers use an oscilloscope (also referred to informally as an oscope) to design, manufacture or repair electronic equipment to verify that a device is working properly.
How does an oscilloscope work?
An oscilloscope reconstructs electrical signals using three systems—vertical, horizontal and trigger—which work together to gather information about the electrical signal, so the oscilloscope can graphically display those signals.
How does an oscilloscope measure voltage?
An oscilloscope measures voltage waves by capturing physical phenomena such as vibrations or temperature, or electrical phenomena such as current or power with a sensor. The oscilloscope then converts that signal into a waveform and graphically displays it where the horizontal axis represents time and the vertical axis represents voltage.
What does an oscilloscope measure?
An oscilloscope measures voltage waves, but it can also be used to measure current, resistance, sound, capacitance, frequency and more.
How does an oscilloscope measure frequency?
Most oscilloscopes measure frequency automatically, but you can also use a simple equation (frequency=1/period) and the horizontal scale on your oscilloscope to measure frequency manually.
How can an oscilloscope measure current?
You can use an oscilloscope to measure current by measuring the voltage dropped across a shunt resistor or by using a current probe.
What are the different types of oscilloscopes?
There are two main types of oscilloscopes: analog and digital. Most engineers today use digital oscilloscopes, which fall into five categories: digital storage oscilloscopes, digital phosphor oscilloscopes, mixed signal oscilloscopes, mixed domain oscilloscopes, and digital sampling oscilloscopes.
What is a mixed signal oscilloscope?
A mixed signal oscilloscope is a type of digital storage oscilloscope designed to capture, display, and compare both analog and digital signals.
What is a mixed domain oscilloscope?
Like a mixed signal oscilloscope, a mixed domain oscilloscope measures analog and digital signals, but has built-in spectrum analyzer, allowing engineers to make radio frequency (RF) measurements as well.
How to use an oscilloscope?
Learn the basics of how to set up and how to use an oscilloscope as well as basic measurement techniques with our Oscilloscope How-To Guide.
How to choose an oscilloscope?
There are many factors to consider when buying an oscilloscope. Learn more in our guide on how to choose the best oscilloscope for your application.
How much does an oscilloscope cost?
Oscilloscope pricing can range greatly depending on whether you’re a hobbyist looking for a simple setup or an electrical engineer using an oscilloscope in a lab setting. How you choose to configure your oscilloscope, its bandwidth and the number of channels are big factors in determining oscilloscope price. Tektronix oscilloscopes, for example, can range from around $500 to tens of thousands of dollars for more sophisticated instruments and advanced configurations. For guidance on finding the oscilloscope that best meets your needs, contact the experts at Tektronix.
"We couldn't find equipment capable of making measurements such as the
high-side gate-source voltage. In fact, most differential signals in the presence of today’s higher
frequency common mode
voltages cannot be measured accurately. That’s when Tektronix stepped in.”
#TekScopeStory #TekOneMillion
Kontaktaufnahme
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Live-Chat mit Tektronix-Vertretern. Verfügbar von 09:00 - 5:00 Uhr CEST.
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Laden Sie Handbücher, Datenblätter, Software und vieles mehr herunter:
Oszilloskop
Was ist ein Oszilloskop
Ein Oszillosko ist im Grunde genommen ein Gerät, das Kurven anzeigt – es zeichnet eine Kurve eines elektrischen Signals. In den meisten Anwendungen veranschaulicht die Kurve, wie sich Signale im Laufe der Zeit verändern. Oszilloskope können in zwei Hauptkategorien unterteilt werden – analoge und digitale Oszilloskope. Digitale Oszilloskope können in digitale Speicheroszilloskope (DSOs), digitale Phosphor-Oszilloskope (DPOs), Gemischtsignal-Oszilloskope (MSOs) und digitale Proben-Oszilloskope.
Oszilloskope werden für viele Messungen eingesetzt, darunter:
- Spannungsmessungen
- Zeit- und Frequenzmessungen
- Pulsweiten- und Anstiegszeitmessungen
- Phasenverschiebungsmessungen
So wählen Sie das richtige Oszilloskop
So wählen Sie das richtige Oszilloskop
Labor-Oszilloskope
Die vertrauenswürdigsten Tisch-Oszilloskope der Branche werden in Industriedesign- und Fehlerbehungsumgebungen und Universitätslernumgebungen eingsetzt.
Vergleichen
Oszilloskope mit Touchscreen
Das neue MDO der Serie 3 und das MSO der Serie 4 ergänzen die MSOs der Serien 5 und 6 und erweitern das Angebot an Touchscreen-Oszilloskopen der nächsten Generation.
Vergleichen
Oszilloskope mit Leistung in Echtzeit
Erkennen Sie echte Signale und erfassen Sie mehr Details. Automatisieren Sie die Einrichtung, Erfassung und Analyse serieller Hochgeschwindigkeitsdatensignale mit einem Werkzeugpaket für beschleunigte Debugging- und Konformitätsprüfungen Ihrer Designs.
Weitere Informationen
Oszilloskop-Auswahlleitfaden (PDF)
Hochwertige Matrix mit Leistungsangaben für das Sortiment von Tektronix Oszilloskopen.
Anleitung herunterladen »Wählen Sie das beste Oszilloskop
| Vergleichen | Modell | Bandbreite | Analoge Kanäle | Digitalkanäle | Abtastrate | Aufzeichnungslänge | Spektrumanalysator | Einstiegspreis |
|---|---|---|---|---|---|---|---|---|
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100 MHz–1 GHz |
2 oder 4 |
16 (optional) |
Bis zu 5 GS/s |
10 Mio. |
Bis zu 3 GHz (optional) |
US $3,850
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200 MHz bis 1,5 GHz |
4 oder 6 |
Bis zu 48 (optional) |
6,25 GS/s |
31,25 M bis 62,5 Mpts |
- |
US $7,550
|
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30 MHz – 200 MHz | 2-4 | - | 1 GS/s–2 GS/s | 2.500 Punkte | - |
US $863
|
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50 MHz–200 MHz | 2-4 | - | 500 MS/s–2 GS/s | 2.500 Punkte |
- |
US $2,250
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70 MHz bis 100 MHz | 2-4 | - | 1 GS/s | 20 Mio. Punkte |
- |
US $1,240
|
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70 MHz–200 MHz | 2-4 | 16 (optional) | 1 GS/s | 1 Mio. Punkte |
- |
US $1,490
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100 MHz - 1 GHz | 2-4 | 16 (optional) | 2.5 GS/s - 5 GS/s | 10M points | Up to 3 GHz |
US $3,770
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100 MHz - 200 MHz | 2-4 | - | 1 GS/s - 2 GS/s | 2.5k points |
- |
US $4,210
|
|
|
|
100 MHz–500 MHz | 2-4 | - | 1,25 GS/s–5 GS/s | 10.000 Punkte |
- |
US $8,750
|
|
|
|
200 MHz – 1 GHz | 4 | 16 (optional) | 2,5 GS/s – 5 GS/s | 20 Mio. Punkte | Bis zu 6 GHz |
US $7,430
|
|
|
|
350 MHz - 2 GHz | 4 | 16 (optional) | 5 GS/s–10 GS/s | 25 Mio. - 125 Mio. Punkte |
- |
US $16,100
|
|
|
|
350 MHz - 2 GHz | 4 - 8 | Bis zu 64 (optional) | 6,25 GS/s | 62,5 - 125 Mio. Punkte |
- |
US $14,500
|
|
|
|
1 GHz |
8 |
Bis zu 64 (optional) |
6,25 GS/s |
125 Mio. Punkte |
||
|
|
|
1 - 8 GHz |
4 |
Bis zu 32 (optional) |
25 GS/s |
62,5 – 250 Mio. Punkte |
- |
US $26,500
|
|
|
|
1 - 8 GHz |
4 (SMA) |
25 GS/s |
125 - 250 Mpts |
Spektrum-Ansicht |
||
|
|
|
500 MHz–3,5 GHz | 4 | - | 5 GS/s–40 GS/s | 25 Mio. - 500 Mio. Punkte |
- |
US $32,100
|
|
|
|
DC – 80 GHz | Bis zu 8 | - | Bis zu 300 kS/s | 50 – 16.000 Punkte (1 Mio. Punkte mit IConnect®, 10 Mio. Punkte mit 80SJNB) |
- |
|
|
|
|
4 GHz – 33 GHz | 4 | 16 (optional) | 25 GS/s – 100 GS/s | 31,25 Mio. - 1 Mrd. Punkte |
- |
|
|
|
|
23 GHz bis 70 GHz | 1-4 | - | 50 GS/s bis 200 GS/s | 62,5 Mio. - 1 Mrd. Punkte |
- |
Vergleich der Produktserien
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See all that we offer
Compare and choose the best oscilloscope for your use
Product series comparison
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| TBS1000C Digital Storage Oscilloscope | TBS2000B Digital Storage Oscilloscope | MSO2000B / DPO2000B | 3 Series MDO Mixed Domain Oscilloscope | 4 Series MSO Mixed Signal Oscilloscope | 5 Series MSO | 5 Series MSO Low Profile | 6 Series B MSO | 6 Series Low Profile Digitizer | MSO/DPO70000 | DPO70000SX | 8 Series Sampling Oscilloscope | TDS2000C | TPS2000 | MDO3000 | MDO4000 | MSO5000 / DPO5000 | DSA8300 | |
| Bandwidth |
50 MHz - 200 MHz |
70 MHz - 200 MHz |
70 MHz - 200 MHz |
100 MHz - 1 GHz |
200 MHz to 1.5 GHz |
350 MHz - 2 GHz |
1 GHz |
1 GHz - 10 GHz |
1 GHz - 8 GHz |
4 GHz - 33 GHz |
13 GHz - 70 GHz |
30 GHz |
50 MHz - 200 MHz |
100 MHz - 200 MHz |
100 MHz - 1 GHz |
200 MHz - 1 GHz |
350 MHz - 2 GHz |
DC - 80 GHz |
| Analog Channels |
2 |
2-4 |
2-4 |
2 or 4 |
4 or 6 |
4, 6 or 8 |
8 |
4, 6 or 8 |
4 (SMA) |
4 |
1-4 |
1-4 |
2-4 |
2-4 |
2 or 4 |
4 |
4 |
Up to 8 |
| Digital Channels |
- |
- |
16 (optional) |
16 (optional) |
Up to 48 (optional) |
Up to 64 (optional) |
Up to 64 (optional) |
Up to 64 (optional) |
- |
16 (optional) |
- |
- |
- |
- |
16 (optional) |
16 (optional) |
16 (optional) |
- |
| Sample Rate |
1 GS/s |
1 GS/s to 2 GS/s |
1 GS/s |
2.5 GS/s - 5 GS/s |
6.25 GS/s |
6.25 GS/s |
6.25 GS/s |
50 GS/s |
25 GS/s |
25 GS/s - 100 GS/s |
50 GS/s - 200 GS/s |
300 kS/s |
500 MS/s - 2 GS/s |
1 GS/s - 2 GS/s |
2.5 GS/s - 5 GS/s |
2.5 GS/s - 5 GS/s |
5 GS/s - 10 GS/s |
Up to 300 kS/s |
| Record Length |
20k points |
5 Mpoints |
1M points |
10 M |
31.25 M to 62.5 M |
62.5 M - 500 M |
125 M - 500 M |
62.5 M - 1 G |
125 M - 1 G |
31.25M - 1G points |
62.5M - 1G point |
> 800 M |
2.5k points |
2.5k points |
10 M |
20 M |
25 M - 125 M |
50 - 16,000 points (1M points with IConnect® , 10M points for 80SJNB) |
| Spectrum Analyzer |
- |
- |
- |
Up to 3 GHz (optional) |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
Up to 3 GHz |
Up to 6 GHz |
- |
- |
| Function Generator Output |
- |
- |
- |
1 (optional) |
1 (optional) |
1 (optional) |
1 (optional) |
1 (optional) |
1 (optional) |
- |
- |
- |
- |
- |
1 (optional) |
1 (optional) |
- |
- |
| Maximum Waveform Capture Rate |
- |
10,000 times per second |
5,000 wfm/s |
>280,000 wfm/s |
> 500,000 wfms/s |
>500,000 wfms/s |
>500,000 wfms/s |
>500,000 (Peak Detect, Envelope acquisition mode), |
>500,000 (Peak Detect, Envelope acquisition mode) |
>300,000 wfms/s |
>300,000 wfms/s |
Record Length / 300 kS/s |
- |
- |
>235,000 - >280,000 wfm/s |
>270,000 - >340,000 wfm/s |
>250,000 wfms/s |
300 kS/s ÷ Record Length |
| RF Channels |
- |
- |
- |
1 (optional) |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
1 |
1 (optional) |
- |
- |
| RF Frequency Range |
- |
- |
- |
9 kHz to 1 GHz or 3 GHz (optional) |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
9 kHz - 1 GHz |
9 kHz – 3 GHz/ 6 GHz (optional) |
- |
- |
| Trigger Types |
Edge, Pulse Width, Runt, Line |
Edge, Pulse Width, Runt |
Edge, Pulse Width, Runt, Logic, Setup and Hold, Rise/Fall Time, Video, Parallel, I2C, SPI, CAN, RS-232/422/485/UART, LIN |
Edge |
Edge |
Edge |
Edge |
Edge |
Edge |
Comm, Bus, I2C, SPI, CAN, LIN, Flexray, RS-232/422/485/UART, USB, Edge, B Event Scan, Glitch, Pattern, Runt, Serial Pattern, Setup/Hold, State, Timeout, Transition, Visual, Width, Window |
Edge, B Event Scan, Glitch, Pattern, Runt, Setup/Hold, State, Timeout, Transition, Visual, Width, Window |
Clock Prescale Input |
Edge, Video, Pulse Width, Glitch |
Edge, Video, Pulse Width, Glitch |
Edge |
Edge |
Edge |
Clock Input/Prescale, TDR Clock, Clock RecoveryTriggers from Modules, Trigger Direct Input, Phase Reference timebase supports acquisitions without a trigger signal in its Free Runmode |
| Optional Analysis |
- |
- |
Automotive Serial Triggering and Analysis Module (DPO2AUTO), Computer Serial Triggering and Analysis Module (DPO2COMP), Embedded Serial Triggering and Analysis Module (DPO2EMBD) |
I²C/SPI decode |
3-phase power analysis |
8b10b decode |
8b10b decode |
2.5 and 5GBASE-T compliance |
2.5 and 5GBASE-T compliance |
MIPI® D-PHY Testing (D-PHY), DDR Memory Bus Analysis (DDRA), DPOJET Jitter And Eye Diagram Analysis (DJA), DisplayPort 1.2 Source Test Automation (DP12), Ethernet Compliance Test Solution (ET3), HDMI Compliance Test Solution (HT3), HSIC Electrical Validation and Protocol Decode (HSIC), MHL Advanced Analysis and Compliance Test (MHD), MOST Electrical Compliance and Debug (MOST), MIPI M-PHY Transmitter Debug, Characterization and Compliance Test (M-PHY), PCI Express Transmitter Compliance and Debug (PCE3), SAS 12 Gb/s Test (SAS3), Serial Data Link Analysis Solution Software (SLE, SLA), SFP+ Compliance and Debug (SFP-TX), SignalVu Vector Signal Analysis Software (SVE), Thunderbolt TX Compliance Test (TBT-TX), USB 2.0 Compliance Test Solution (USB), USB 3.0 Transmitter Test (USB3) |
DPOJET Jitter and Eye Diagram Analysis (DJA), Serial Data Link Analysis Visualizer (SDLA64), SignalVu Vector Signal Analysis (SVE) |
Optical PAM4 (PAM4-O) |
- |
Power Measurements Application Package (TPS2PWR1), WaveStar Application Software (WSTRO) |
CAN/LIN decode |
CAN/LIN decode |
Advanced Power analysis |
IConnect® S-Parameters (80SSPAR), IConnect®Signal Integrity and Failure Analysis (80SICON), IConnect® andMeasureXtractor™ Signal Integrity (80SICMX), Jitter/Noise/BERAnalysis (80SJARB and 80SJNB) |
| Vertical Accuracy |
- |
3% |
- |
±1.5% |
±1% |
±1% |
±1% |
±1% |
50 Ω: ±1.0% of full scale, (±2.0% of full scale at 1mV/div) |
±2% |
±2% |
- |
- |
- |
1.5% |
±1.5% |
±1.5% |
- |
| Automated Measurements |
32 |
32 and FFT function for thorough waveform analysis |
29 |
- |
- |
- |
- |
- |
- |
53 |
53 |
- |
- |
- |
- |
- |
- |
- |
| No. Of Application Modules Range |
- |
- |
3 |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
| Rise Time |
7.0 ns - 2.1 ns |
3.5ns~5ns |
2.1 ns - 5 ns |
4000 ps to 400 ps (100 MHz to 1 GHz) |
2.3 ns to 450 ps (200 MHz to 1.5 GHz) |
175 ps - 1 ns |
350 ps |
400 ps - 40 ps (1 GHz - 10 GHz) |
400 ps - 50 ps (1 GHz - 8 GHz) |
9 ps - 98 ps |
<6ps - 13ps |
Determined by sampling module |
5.83 ns - 2.1 ns |
3.5 ns - 2.1 ns |
400 ps - 4 ns |
175 ps - 3.5 ns |
175 ps - 1 ns |
Determined by the sampling modules used |
| Display |
7-inch(178mm) WVGA color display |
9 inch TFT WVGA |
7 in. (180 mm), Color |
11.6 inches, 1920 x 1080 HD |
13.3 in, 1920x1080 HD |
15.6 in, 1920x1080 HD |
- |
15.6 in, 1920x1080 HD |
- |
12.1 in (308 mm), Color |
6.5 in (165 mm), Color |
- |
5.7 in. (145 mm), Color |
5.7 in. (145 mm), Color |
9 in. (229 mm), Color |
10.4 in. (264 mm), Color |
10.4 in. (264 mm), Color |
10.4 in. (265 mm), Color |
| Warranty |
5-year Warranty |
5 years |
Five-year Warranty |
3 years |
3 years |
3 years |
3 years |
1 year |
1 year |
One-year Warranty |
One-year Warranty |
One-year Warranty |
Lifetime Warranty |
Three-year Warranty |
3 years |
3 years |
1 year |
One-year Warranty |
| SA Real Time Capture Bandwidth |
- |
- |
- |
1 GHz (optional), 3 GHz (optional) |
- |
- |
- |
- |
2 GHz |
- |
- |
- |
- |
- |
Up to 3 GHz |
Up to 3.75 GHz |
- |
- |
| Starting Price | US $510 | US $1,370 | US $1,520 | US $3,850 | US $7,550 | US $14,500 | Contact Us | US $26,500 | Contact Us | Contact Us | Contact Us | Contact Us | US $2,320 | US $4,340 | US $3,860 | US $7,800 | US $17,700 | Contact Us |
Explore our oscilloscope range. From everyday bench scopes to real-time, high-performance scopes.
Oscilloscope Probes and Accessories
Choose from a broad portfolio of Tektronix probes and accessories, all perfectly matched to our industry-leading oscilloscopes. With over 100 choices available, select the oscilloscope probe you need for your specific testing application.
Current Probes
Best-in-class bandwidth and sensitivity. Safety Certified.
Low Voltage Differential Probes
Signal fidelity for serial bus PHY measurements.
High Voltage Differential Probes
Industry leading performance up to 6000V. Safety Certified.
IsoVu Isolated Probes
Probing systems make high-resolution measurements in the presence of common mode signals or noise.
Passive Probes
Highest bandwidth, lowest probe loading.
Power Rail Probes
Power rail probes offer low noise, low loading, high bandwidth, and high DC offset specifically for power integrity measurements.
Software for your Oscilloscope
Analyze your most challenging system designs by adding one of our 30+ packages to your oscilloscope.
Analysis Software for Oscilloscopes
Automate your testing, simplify execution, and speed evaluation of your most challenging system designs using Tektronix software. Learn more about our oscilloscope software packages.
Keithley KickStart Software
Start measuring in minutes without complex programming. Perform I-V characterization and more.
Learning Center
Learn how to use oscilloscopes, spectrum analyzers, source measure units, and other instruments to troubleshoot system anomalies, provide measurement insights, debug EMI, and more.Primer
Oscilloscope Basics and Fundamentals
In this comprehensive primer, you can learn everything you need to know about oscilloscope fundamentals, types, systems, setup, and use.
SOLUTION BRIEF
Capacitance and Inductance Measurements Using an Oscilloscope and a Function Generator
Learn about impedance, impedance measurement methods, measurement ranges, and more with real-world examples.
APPLICATION NOTE
Spectrum View: A New Approach to Frequency Domain Analysis on Oscilloscopes
Learn about how Spectrum View analysis allows optimization of both time domain and frequency domain displays independently to offer important insights.
APPLICATION NOTE
How Oscilloscope Probes Affect Your Measurement
Learn how an oscilloscope probe changes the signal you’re measuring at the test point and what probing specifications to look for to minimize probing effects.
"We couldn't find equipment capable of making measurements such as the
high-side gate-source voltage. In fact, most differential signals in the presence of today’s
higher frequency common mode
voltages cannot be measured accurately. That’s when Tektronix
stepped in.”
#TekScopeStory #TekOneMillion
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Oszilloskop
Was ist ein Oszilloskop
Ein Oszillosko ist im Grunde genommen ein Gerät, das Kurven anzeigt – es zeichnet eine Kurve eines elektrischen Signals. In den meisten Anwendungen veranschaulicht die Kurve, wie sich Signale im Laufe der Zeit verändern. Oszilloskope können in zwei Hauptkategorien unterteilt werden – analoge und digitale Oszilloskope. Digitale Oszilloskope können in digitale Speicheroszilloskope (DSOs), digitale Phosphor-Oszilloskope (DPOs), Gemischtsignal-Oszilloskope (MSOs) und digitale Proben-Oszilloskope.
Oszilloskope werden für viele Messungen eingesetzt, darunter:
- Spannungsmessungen
- Zeit- und Frequenzmessungen
- Pulsweiten- und Anstiegszeitmessungen
- Phasenverschiebungsmessungen
So wählen Sie das richtige Oszilloskop
So wählen Sie das richtige Oszilloskop
Labor-Oszilloskope
Die vertrauenswürdigsten Tisch-Oszilloskope der Branche werden in Industriedesign- und Fehlerbehungsumgebungen und Universitätslernumgebungen eingsetzt.
VergleichenOszilloskope mit Touchscreen
Das neue MDO der Serie 3 und das MSO der Serie 4 ergänzen die MSOs der Serien 5 und 6 und erweitern das Angebot an Touchscreen-Oszilloskopen der nächsten Generation.
VergleichenOszilloskope mit Leistung in Echtzeit
Erkennen Sie echte Signale und erfassen Sie mehr Details. Automatisieren Sie die Einrichtung, Erfassung und Analyse serieller Hochgeschwindigkeitsdatensignale mit einem Werkzeugpaket für beschleunigte Debugging- und Konformitätsprüfungen Ihrer Designs.
Weitere InformationenOszilloskop-Auswahlleitfaden (PDF)
Hochwertige Matrix mit Leistungsangaben für das Sortiment von Tektronix Oszilloskopen.
Anleitung herunterladen »Wählen Sie das beste Oszilloskop
| Compare | Model | Bandwidth | Analog Channels | Digital Channels | Sample Rate | Record Length | Spectrum Analyzer | Starting Price |
|---|---|---|---|---|---|---|---|---|
|
|
|
100 MHz - 1 GHz |
2 or 4 |
16 (optional) |
Up to 5 GS/s |
10 M |
Up to 3 GHz (optional) |
US $3,850
|
|
|
|
200 MHz to 1.5 GHz |
4 or 6 |
Up to 48 (optional) |
6.25 GS/s |
31.25 M to 62.5 Mpts |
- |
US $7,550
|
|
|
|
30 MHz - 200 MHz | 2-4 | - | 1 GS/s - 2 GS/s | 2.5k points | - |
US $863
|
|
|
|
50 MHz - 200 MHz | 2-4 | - | 500 MS/s - 2 GS/s | 2.5k points | - |
US $2,250
|
|
|
|
70 MHz - 100 MHz | 2-4 | - | 1 GS/s | 20 Mpoints | - |
US $1,240
|
|
|
|
70 MHz - 200 MHz | 2-4 | 16 (optional) | 1 GS/s | 1M points | - |
US $1,490
|
|
|
|
100 MHz - 1 GHz | 2-4 | 16 (optional) | 2.5 GS/s - 5 GS/s | 10M points | Up to 3 GHz |
US $3,770
|
|
|
|
100 MHz - 200 MHz | 2-4 | - | 1 GS/s - 2 GS/s | 2.5k points | - |
US $4,210
|
|
|
|
100 MHz - 500 MHz | 2-4 | - | 1.25 GS/s - 5 GS/s | 10k points | - |
US $8,750
|
|
|
|
200 MHz - 1 GHz | 4 | 16 (optional) | 2.5 GS/s - 5 GS/s | 20M points | Up to 6 GHz |
US $7,430
|
|
|
|
350 MHz - 2 GHz | 4 | 16 (optional) | 5 GS/s - 10 GS/s | 25M - 125M points | - |
US $16,100
|
|
|
|
350 MHz - 2 GHz | 4 - 8 | Up to 64 (optional) | 6.25 GS/s | 62.5 - 125 Mpoints | - |
US $14,500
|
|
|
|
1 GHz - 1 GHz |
8 |
Up to 64 (optional) |
6.25 GS/s |
125 Mpoints |
||
|
|
|
1 GHz - 8 GHz |
4 |
Up to 32 (optional) |
25 GS/s |
62.5 - 250 Mpoints |
- |
US $26,500
|
|
|
|
1 GHz - 8 GHz |
4 (SMA) |
25 GS/s |
125 - 250 Mpts |
Spectrum View |
||
|
|
|
500 MHz - 3.5 GHz | 4 | - | 5 GS/s - 40 GS/s | 25M - 500M points | - |
US $32,100
|
|
|
|
DC - 80 GHz | Up to 8 | - | Up to 300 kS/s | 50 - 16,000 points (1M points with IConnect® , 10M points for 80SJNB) | - |
|
|
|
|
4 GHz - 33 GHz | 4 | 16 (optional) | 25 GS/s - 100 GS/s | 31.25M - 1G points | - |
|
|
|
|
13 GHz - 70 GHz |
1-4 | - | 50 GS/s - 200 GS/s | 62.5M - 1G point | - |
Vergleich der Produktserien
Download
Download
Download Manuals, Datasheets, Software and more:
Contact us
Current Probe
Tektronix current probe solutions offer:
- The broadest range of AC/DC and AC-only current probes
- Measurement accuracy from uAs to 2000 A
- Best-in-class bandwidth up to 120 MHz
- Best-in-class current clamp sensitivity down to 1 mA
- The only products with 3rd Party Safety Certification (UL, CSA, ETL)
- The only products with bare wire voltage ratings
- Automatic readout and scaling when used with Tektronix oscilloscopes so you don’t have to convert volts to amps or manually set the scaling
Current Probe
| Model | Maximum Current | Minimum Current | Bandwidth | Rise Time | List Price |
|---|---|---|---|---|---|
| A621 |
RMS: 1000 A |
10 mA |
50 kHz |
- | US $798 Configure & Quote |
| A622 |
DC: 100 A |
50 mA |
100 kHz |
- | US $803 Configure & Quote |
| CT2 |
Peak: 36 A |
1 mA |
200 MHz |
< 500 ps |
US $840 Configure & Quote |
| CT1 |
Peak: 12 A |
200 μA |
1 GHz |
< 350 ps |
US $852 Configure & Quote |
| CT6 |
Peak: 6 A |
200 μA |
2 GHz |
< 200 ps |
US $901 Configure & Quote |
| TCP312 | High-current Sensitivity – DC: 30 A RMS: 21.2 A Peak: 50 A Low-current Sensitivity – DC: 5 A RMS: 3.5 A Peak: 50 A | 1 mA | DC - 100 MHz | ≤3.5 ns | US $1,730 Configure & Quote |
| TRCP0300 |
300 A |
250 mA |
30 MHz |
- | US $1,830 Configure & Quote |
| TCP305A |
DC: 50 A |
5 mA |
50 MHz |
< 7 ns |
US $1,870 Configure & Quote |
| P6021A |
Max RMS: 10.6 A |
10 mA |
60 MHz |
< 5.8 ns |
US $1,880 Configure & Quote |
| TRCP3000 |
3000 A |
500 mA |
16 MHz |
- | US $1,880 Configure & Quote |
| TRCP0600 |
600 A |
500 mA |
30 MHz |
- | US $1,940 Configure & Quote |
| P6022 |
Max RMS: 4 A |
1 mA |
120 MHz |
< 2.9 ns |
US $2,130 Configure & Quote |
| TCP312A |
DC: 30 A |
1 mA |
100 MHz |
< 3.5 ns |
US $2,180 Configure & Quote |
| TCP202A |
DC: 15 A |
10 mA | 50 MHz |
< 7 ns |
US $2,760 Configure & Quote |
| TCPA400 |
(Probe Dependent) |
- |
100 MHz |
- | US $2,810 Configure & Quote |
| TCP2020 | 20 A RMS, 100 A Peak Pulse | 10 mA | 50 MHz | ≤7 ns | US $2,820 Configure & Quote |
| TCPA300 | - | - | DC - 100 MHz | - | US $2,820 Configure & Quote |
| TCP0020 |
DC: 20 A |
10 mA | 50 MHz |
< 7 ns |
US $2,980 Configure & Quote |
| TCP303 |
DC: 150 A |
5 mA |
15 MHz |
< 23 ns |
US $3,520 Configure & Quote |
| TCP0030A |
DC: 30 A |
1 mA |
120 MHz |
< 2.92 ns |
US $4,280 Configure & Quote |
| TCP404XL |
DC: 500 A |
1 A |
2 MHz |
< 175 ns |
US $4,660 Configure & Quote |
| TCP0150 |
DC: 150 A |
5 mA |
20 MHz |
< 17.5 ns |
US $5,050 Configure & Quote |
|
What are the maximum power draw ratings for the DPO3000/MSO3000 TEKVPI probes?
The MSO/DPO3000 Series scope can handle up to 20 Watts of attached probes. With an external
adapter (Part #119-7465-xx) these scopes can reach up to 50 wattage requirement depending on
probe requirements. Please see the download link below with a fu
|
Faq Id61131 | 27 Nov 2019 |
|
What current probes are compatible with the CT4 current transformer?
The CT4 can be used to extend the measurement capability of the P6021/A, A6302, A6312,
TCP202/A,TCP0020 and TCP0030/A.The CT4 can also be used with the TCP 312/A and TCP305/A
along with the TCPA300 amplifier. On some instruments, you may need to set
|
Faq Id64056 | 27 Nov 2019 |
|
Do the TCP300 and TCP400 series current probes require amplifiers?
The TCP300 series require the TCPA300 current amplifier. The TCP404XL requires the TCPA400
current amplifier.
|
Faq Id58156 | 27 Nov 2019 |
|
What are the differences between the A and non A versions of the TCP0030, TCP312, TCP305 and
P6021 current probes?
The TCP0030A, TCP312A, TCP305A, and P6021A probes are updates to their existing models.
Updates include:Larger jaw diameter (5 mm vs. 3.8 mm) to accommodate larger wire sizes 3rd
Party Certification for bare wire voltages up to 150 V CAT II - (Non-A
|
Faq Id64841 | 27 Nov 2019 |
|
Need a replacement power supply for, TRCP0300, TRCP0600, TRCP3000
Tektronix does not offer a replacement part number.
The power supply an External Desktop AC to DC supply.
12V 1.6A with a barrel connector of 2.1mm ID and 5.5mm OD.
Positive (+) inside; necitive (-) outside.
|
Faq Id772586 | 27 Nov 2019 |
|
What are the differences between the older TCP202 and current TCP202A?
Differences are:
1. The jaw size of TCP202 is 3.8 mm while the jaw opening for TCP202A is 5 mm.
2. The TCP202A is rated for 150 V Cat on bare wire.
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Faq Id468406 | 27 Nov 2019 |
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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
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Faq Id56016 | 27 Nov 2019 |
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What is the size of the TRCP current probe loops.
The size of the loops are given in this document.
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Faq Id468376 | 27 Nov 2019 |
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What is the delay or propogation delay for various Tektronix probes?
Probe delay in ns
(Typical)P520517P521020P510014.9P50505.5TCP20217TCPA30519TCP30353TCP31217A631230A630355A6302XL60
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Faq Id58741 | 27 Nov 2019 |
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Will The TCPA300 or TCPA400 current probe amplifier work with the older A6xxx series current
probes?
No, the TCPA300 and TCPA400 will only work with their respective current probes, TCP312,
TCP303, TCP305, and TCP404XL.
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Faq Id61461 | 27 Nov 2019 |
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TCP0150 AC/DC Current Probe, Datasheet
Literature Number: 51W-20815-5 |
Datasheet | 26 Nov 2019 |
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DC Coupled Current Probe
Literature Number: 51W-10736-7 |
Datasheet | 26 Nov 2019 |
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AC/DC Current Probes Datasheet
Literature Number: 51W-28098-0 |
Datasheet | 26 Nov 2019 |
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AC/DC Current Measurement Systems
The TCP300 and TCP400 Series AC/DC current measurement family is a highly advanced current
measurement system for today's current measurement needs. When connected to Tektronix
oscilloscopes with TEKPROBE Level II, TekConnect (w/ TCA-BNC), or TekVPI
Literature Number: 60W-16458-12 |
Datasheet | 26 Nov 2019 |
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AC Current Probes
The P6021 and P6022 Current Probes provide versatile AC current measurements. Both probes
provide accurate current measurements over a wide range of frequencies. The P6021 and P6022
allow current measurements without breaking the circuit by clipping
Literature Number: 60W-06647-4 |
Datasheet | 26 Nov 2019 |
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30 A AC/DC Current Probe
TCP0030A is a high-performance, easy-to-use AC/DC current probe designed for use and direct
connection to oscilloscopes with the TekVPI™ probe interface. This AC/DC current measurement
probe provides greater than 120 MHz of bandwidth with selectable
Literature Number: 51W-19042-10 |
Datasheet | 26 Nov 2019 |
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AC Current Probes Datasheet
Literature Number: 60W-12572-4 |
Datasheet | 26 Nov 2019 |
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Current Probes
Literature Number: 60W-15081-3 |
Datasheet | 26 Nov 2019 |
|
Current Probes
Literature Number: 60W-60294-2 |
Datasheet | 26 Nov 2019 |
|
P6021 60 MHz Current Probe
60 MHz Current Probe
Instruction Manual
Part Number: 070094706 |
Manual | 26 Nov 2019 |
|
P6022 Instruction Manual
Current Probe
Instruction Manual
Part Number: 070094803 |
Manual | 26 Nov 2019 |
|
P6021
60 MHz Current Probe Instruction Manual
Part Number: 070094707 |
Manual | 26 Nov 2019 |
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Probes and Accessories
Declassification and Security
Part Number: 071238400 |
Manual | 26 Nov 2019 |
|
067-1686-03
Power Measurement Deskew & Calibration Fixture
Part Number: 071187203 |
Manual | 26 Nov 2019 |
|
067-1686-00
Power Measurement Deskew & Calibration Fixture
Instructions
Part Number: 071187202 |
Manual | 26 Nov 2019 |
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067-1478-00 Power Measurements Deskew Fixture
Power Measurements Deskew Fixture
Instructions
Part Number: 071117501 |
Manual | 26 Nov 2019 |
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AM503+ AM503A+ AM503B+ AM503S+ AM5030+ AM5030S Memory Information and Clearing
Click on this link to download the memory erasure information for AM503, AM503A, AM503B,
AM503S, AM5030, AM5030S Current Probe Amplifiers
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Manual | 26 Nov 2019 |
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CT-1 and CT-2
Current Transformer
Instructions
Part Number: 070795702 |
Manual | 26 Nov 2019 |
|
Tektronix Supplemental, 071329504
Product Information Sheet for the People‚s Republic of China
Part Number: 071329504 |
Manual | 26 Nov 2019 |
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Tektronix Supplemental, 071329304
Product Information Sheet for People‚s Republic of China
Part Number: 071329304 |
Manual | 26 Nov 2019 |
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TCP300 and TCP400 Series Instructions
AC/DC Current Probes
Instructions
Part Number: 071118501 |
Manual | 26 Nov 2019 |
|
TCP202 Instruction Manual
15 Ampere AC/DC Current Probe
Instruction Manual
Part Number: 070954202 |
Manual | 26 Nov 2019 |
|
TCPA300/400 and TCP303/305A/312A/404XL
Amplifiers and Current Probes Compliance and Safety
Part Number: 071364301 |
Manual | 26 Nov 2019 |
|
TCP0150
20 MHz, 150 A AC/DC Current Probe
Instruction Manual
Part Number: 071225100 |
Manual | 26 Nov 2019 |
|
TCPA300/400 and TCP300/400 Series
Amplifiers & AC/DC Current Probes Service Manual
Part Number: 077032300 |
Manual | 26 Nov 2019 |
|
TCPA300/400 & TCP300/400 Series
Revision A: Amplifiers & AC/DC Current Probes
Part Number: 077118300 |
Manual | 26 Nov 2019 |
|
TCPA300/400, TCP300/400 Instruction Manual
AC/DC Current Measurement Systems
Part Number: 071118400 |
Manual | 26 Nov 2019 |
|
TCP202 Reference
15 Ampere AC/DC Current Probe
Reference
Part Number: 070954302 |
Manual | 26 Nov 2019 |
|
TCPA300/400 & TCP300A/400 Series
Amplifiers & AC/DC Current Probes
Part Number: 077118301 |
Manual | 26 Nov 2019 |
|
TCP202
15 Ampere AC/DC Current Probe
Part Number: 070954203 |
Manual | 26 Nov 2019 |
|
TCPA300/400 & TCP300/400 Series
Amplifiers & AC/DC Current Probes
Instruction Manual
Part Number: 071118303 |
Manual | 26 Nov 2019 |
|
TCP202 Reference
15 Ampere AC/DC Current Probe
Part Number: 070954303 |
Manual | 26 Nov 2019 |
|
TCP0030
Current Probe
Instruction Manual
Part Number: 071181200 |
Manual | 26 Nov 2019 |
|
TRCP0300, TRCP0600, and TRCP3000
Current Probes
Part Number: 077121300 |
Manual | 26 Nov 2019 |
|
CT-6 High Frequency AC Current Probe
High Frequency AC Current Probe
Instruction Manual
Part Number: 071045300 |
Manual | 26 Nov 2019 |
|
P6022
Current Probe
Instruction Manual
Part Number: 070094805 |
Manual | 26 Nov 2019 |
|
TCPA300/400 & TCP300A/400 Series
Amplifiers & AC/DC Current Probes (Revision B)
Service Manual
Part Number: 077032301 |
Manual | 26 Nov 2019 |
|
A621 1000 Amp AC Current Probe
1000 Amp AC Current Probe
Instructions
Part Number: 070888204 |
Manual | 26 Nov 2019 |
|
A621
1000 Amp AC Current Probe
Part Number: 070888205 |
Manual | 26 Nov 2019 |
|
A622 100 Amp AC/DC Current Probe
100 Amp AC/DC Current Probe
Instructions
Part Number: 070888305 |
Manual | 26 Nov 2019 |
|
The Probe
Measurement accuracy begins at the probe tip. To help you master the art of probing, we’ve
consolidated the most common probing questions and pitfalls into this easy-to-print, 11x17
poster to post in your lab or workspace. Download your copy for help
Literature Number: 3GW-24992-3 |
Poster | 26 Nov 2019 |
|
In-Depth Review: DSP-equipped scopes provide 20-GHz of realtime bandwidth
|
Technical Brief | 26 Nov 2019 |
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In-Depth Review: DSP-equipped scopes provide 20-GHz of realtime bandwidth
|
Product Article | 26 Nov 2019 |
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ABCs of Probes Primer
Precision Measurements Start at the Probe Tip
Probes are vital to oscilloscope measurements. To understand how vital, disconnect the
probes from an oscilloscope and try to make a measurement. It can’t be done. There has to be
some kind of electrica
Literature Number: 60Z-6053-14 |
Primer | 26 Nov 2019 |
|
Real-time 20-GHz-bandwidth DSO takes 50G samples/sec and captures four 200M-sample records
at once
|
Product Article | 26 Nov 2019 |
|
Making Accurate Current Measurements on Power Supplies with Oscilloscopes
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 ti
Literature Number: 51W-60171-2 |
Application Note | 26 Nov 2019 |
|
Tek oscilloscopes catch analog and digital signals
|
Product Article | 12 Nov 2019 |
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Tektronix MSOs Set Performance Benchmarks
|
Product Article | 12 Nov 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
Literature Number: 60W_14232_10 |
Product Selector Guide | 12 Nov 2019 |
|
Tektronix Instruments Selected For HDMI Compliance Test
|
Product Article | 12 Nov 2019 |
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REVIEW: Cost-effective scopes time-correlate analog+ digital signals
|
Product Article | 12 Nov 2019 |
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Tips and Tricks for Optimizing Low Power Measurements
This technical brief gives best practices for making voltage and current measurements with
an oscilloscope, especially in low-power applications. It describes techniques and
advantages of differential voltage measurements, the risks of probe loading
Literature Number: 48W-28259-1 |
Technical Brief | 12 Nov 2019 |
|
Serial Analyzers for PCIe 2.0 Provide Power Management and Cross Bus Analysis
|
Product Article | 12 Nov 2019 |
Choose the best software for your needs
New Series!
TekScope PC Analysis Software
Get the analysis capability of an award-winning oscilloscope on your PC. Analyze waveforms anywhere, anytime.
New Series!
TekBench Control Software
Intuitive control, automated measurement datalogging, and easy waveform exporting in required formats
TekSmartLab™ Software
Network-based lab instrument management solution for easier teaching and more immersive learning
TekDrive – Collaborate Data Workspace
Collaborate easily by storing, organizing, managing and sharing data and files. Save and recall natively from supported devices...
Keithley KickStart Software
Start measuring in minutes without complex programming. Perform I-V characterization and more.
Keithley Automated Characterization Suite (ACS) Software
Semiconductor device characterization & reliability, parametric & component testing environment
Keithley I-V Tracer Software
The familiar user experience of a curve tracer for two-terminal devices for tracing characteristics through both current and voltage.
Keithley Test Script Builder
Create, modify, debug and manage TSP test scripts for TSP-compatible instruments
Keithley IVy Mobile App
Perform I-V characterization without programming. Visualize, interact with, and share measurements results quickly.
SignalVu-PC: RF and Vector Signal Analysis Software
Comprehensive suite of tools to capture, isolate, and analyze hard-to-find transient RF signals of interest with confidence.
DataVu-PC: Recording and Analysis Software
Rapidly find signals of interest on large RF datasets, supporting all Tektronix RSA spectrum analyzers.
Initial State IoT Platform
Stream data from your devices and services to secure cloud-based data visualizations
SourceXpress
PC-based software environment for AWG instrument control, instrument emulation & waveform creation
ArbExpress
Free. Quickly create waveforms & transfer them to Tektronix waveform and function generators
Contact us
Contact us
Live Chat with Tek representatives. Available 6:00 AM - 4:30 PM PST.
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Download Manuals, Datasheets, Software and more:
RF Spectrum Analyzers & Frequency Analyzers
What is a spectrum analyzer?
A spectrum analyzer measures the amplitude of an input signal versus frequency within the full frequency range of the instrument. The primary use is to measure the power of the spectrum of known and unknown signals.
From portable USB spectrum analyzers to benchtop real time spectrum analyzers, Tektronix has the solution to meet your RF analysis needs. Tektronix spectrum analyzers can be used for:
- General purpose spectrum analysis
- RF record and playback
- EMC compliance testing and troubleshooting
- Spectrum monitoring
- Radiolocation and interference hunting
- Radar and electronic warfare
Tektronix offers a suite of powerful Radio Frequency (RF) analysis solutions delivering high fidelity and low noise to provide the RF situational awareness you need.
The industry-leading Tektronix real time spectrum analyzers, powered with SignalVu software, provide advanced analysis capabilities.
Application-optimized software options are also available for vector signal analysis, pulsed measurements, EMI/EMC pre-compliance testing, RADHAZ detection and more. Compare All RSA Series
What is a Spectrum Analyzer - Tektronix
What is a spectrum analyzer?
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Call
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Download
Download Manuals, Datasheets, Software and more:
Feedback
RF Spectrum Analyzers & Signal Analyzers
What is a spectrum analyzer?
A spectrum analyzer measures the amplitude of an input signal versus frequency within the full frequency range of the instrument. The primary use is to measure the power of the spectrum of known and unknown signals.
From portable USB spectrum analyzers to benchtop real time spectrum analyzers, Tektronix has the solution to meet your RF analysis needs. Tektronix spectrum analyzers can be used for:
- General purpose spectrum analysis
- RF record and playback
- EMC compliance testing and troubleshooting
- Spectrum monitoring
- Radiolocation and interference hunting
- Radar and electronic warfare
Tektronix offers a suite of powerful Radio Frequency (RF) signal analysis solutions delivering high fidelity and low noise to provide the RF situational awareness you need.
History of signal and spectrum analyzers
Spectrum analyzer vs signal analyzer
A traditional spectrum analyzer searches for signals within a spectral bandwidth and provides snapshots of the signal in the frequency or modulation domain. However, this is often not enough information to confidently describe the dynamic nature of modern RF signals.
A signal analyzer, however, includes additional functionality like digital signal processing (DSP) that detects, characterizes, and analyzes signals with complex digital modulation. Signal analyzers can be used to perform more complicated measurements and deeper analysis of RF modulated signals.
What does a signal analyzer do?
A signal analyzer provides advanced demodulation and signal analysis capabilities for analyzing modern RF signals. A signal analyzer can measure any characteristic of the signal, including magnitude and phase information. Signal analyzers essentially help engineers detect and characterize RF signals that change over time.
Tektronix analyzers powered by SignalVu spectrum analyzer software, provide advanced signal analysis capabilities. Application-optimized software options are also available for vector signal analysis, pulsed measurements typical in the Radar application space, EMI/EMC pre-compliance testing, RADHAZ detection and more.
Compare all signal and spectrum analyzers
Read the Fundamentals of Spectrum Analyzers »
Tektronix RF Spectrum Analyzers & Signal Analyzers
- RSA306B: Compact and Portable Spectrum/Signal Analyzer
- RSA500 Series: Rugged and Portable Spectrum/Signal Analyzer
- RSA600 Series: High Fidelity, Compact Spectrum/Signal Analyzer
- RSA5000B Series: Advanced Spectrum/Signal Analyzer
- RSA7100B: Ultra-Wide Bandwidth Analysis and Recording Spectrum/Signal Analyzer
Spectrum Analyzer (Signal Analyzer) Software
Get the most out of your spectrum analyzer by pairing it with industry-leading signal recording and signal analysis application software from Tektronix.
