Lowest noise at high sensitivity
See signals you couldn’t see before.
- Lowest input noise enabled by new TEK061 front-end ASICs.
- 12-bit resolution at 4 GHz, and up to 16-bit resolution at 200 MHz
Advanced measurements and analysis made easy
Characterize jitter on GHz clocks and serial buses with ease. Effortlessly bring statistics into your everyday toolkit with integrated advanced measurements. For example, use the same drag and drop action for jitter or advanced power analysis as routine rise time and rms measurements.
- Advanced Jitter Analysis
- Advanced Power Analysis
- Power Rail Measurements
- Memory Analysis and Debug
- High-speed Serial Compliance
- Automated Measurements and Trend Analysis
- Spectrum View frequency domain display
Touchscreen that works
- 15.6 inch, ultra-responsive touchscreen
- Pinch/zoom/swipe
- Button and mouse operation
Confidence in numbers
Input Channels
4 FlexChannel inputs.
Each FlexChannel provides 1 analog signal input or 8 digital logic inputs with TLP058 probe
Bandwidth 1
1, 2.5, 4, 6, or 8 GHz
Sample Rate
25 GS/s on all analog/digital channels
Record Length 1
Up to 1 Gpoints on all analog/digital channels
Signal Generator 1
Arbitrary, Sine, Square, Pulse, Ramp, Triangle, DC Level, Gaussian, Lorentz, Exponential Rise/Fall, Sin(x)/x, Random Noise, Haversine, Cardiac
Digital Voltmeter 2
4 digit
Trigger Frequency Counter 2
8 digit
Display
15.6-inch (385 mm)
TFT color HD (1920 x 1080) resolution Capacitive (multi-touch) touchscreen
Add functionality or performance as your needs change
- Add Bandwidth up to 8 GHz
- Increase Record Length up to 1 Gpoints on each channel
- Add Logic Probes for up to 32 Digital Channels
- Add Windows 10 Operating System
- Add an Arbitrary / Function Generator
- Add advanced analysis: serial decode/trigger, power, jitter,
memory analysis and debug, and automated compliance testing
Automated power measurements
Today’s efficient power converters demand less input power per watt of output, but they also demand more in terms of power supply measurements. Automated power measurements ensure simple, repeatable results for verifying and optimizing power circuit performance.
Highlights
- MOSFET switching loss and safe operating area analysis
- Power factor and harmonics measurements for IEC61000-3-2 pre-compliance
- In-circuit inductor and transformer loss measurements
- USB power adapter compliance testing to USB2.0 Battery Charger Specification v1.1 and IEC 62684
Serial analysis and compliance testing, done right
Simplify advanced system design debug and verification with protocol decode and serial trigger options for low- and mid-speed buses. Ensure interoperability of mid-speed serial buses with automated compliance testing.
Highlights
- Protocol decode with serial triggering and analysis options available for I2C, SPI, RS-232/422/485/UART, USB 2.0, Ethernet, MIL-STD-1553B, CAN, LIN, and FlexRay
- Automated compliance testing packages available for USB 2.0, Ethernet, HSIC, MOST, and BroadR-Reach
Advanced signal measurement and analysis
Standard analysis tools include 53 automated measurements, measurement statistics, histograms, limit testing, advanced waveform math, user-definable filters and support for custom MATLAB and .NET math plug-ins. Optional applications such as advanced jitter and eye analysis, and wideband RF analysis, extend your capabilities, while Visual Trigger enables graphical trigger definition.
Highlights
- Characterize signal parameters with a broad suite of standard measurement tools
- Advanced jitter and timing analysis characterizes signal integrity issues and their sources
- SignalVu software provides wideband spectral analysis and measurements, with options for audio, modulation, RF pulses and settling time
- TekScope AnywhereTM software enables off-line measurements and analysis
| Model | Analog Bandwidth | Sample Rate | Record Length | Analog Channels | Digital Channels | Function Generator Output | List Price |
|---|---|---|---|---|---|---|---|
| MSO64 | 1 GHz – 8 GHz | 25 GS/s | 62.5 M – 1 G | 4 | Up to 32 (optional) | 1 (optional) |
| Tektronix 6 Series MSO | Tektronix 5 Series MSO | Keysight S-Series | Rohde & Schwarz RTP Series | Rohde & Schwarz RTO Series | LeCroy WavePro HD | |
|---|---|---|---|---|---|---|
| Detailed Comparison | — | — | Fact Sheet | Fact Sheet | Fact Sheet | Fact Sheet |
| Bandwidth Ranges | 1 GHz to 8 GHz | 350 MHz to 2 GHz | 500 MHz to 8 GHz | 4 GHz to 8 GHz | 600 MHz to 6 GHz | 2.5 GHz to 8 GHz |
| Bandwidth (on four channels) | 8 GHz | 2 GHz | 4 GHz | 8 GHz | 4 GHz | 4 GHz |
| Upgradeable Bandwidth | Yes | Yes | Yes | Yes | Yes | No |
| Number of Analog Channels | 4 | 4, 6, or 8 | 4 | 4 | 2 or 4 | 4 |
| Channel Input Impedance | 50 Ω, 1 MΩ | 50 Ω, 1 MΩ | 50 Ω, 1 MΩ | 50 Ω | 50 Ω, 1 MΩ | 50 Ω, 1 MΩ |
| Analog Sample Rate (on four Channels) | Up to 25 GS/s | Up to 6.25 GS/s | Up to 10 GS/s | Up to 20 GS/s | Up to 20 GS/s | Up to 10 GS/s |
| Standard Record Length (on four Channels) | 62.5 Mpts | 62.5 Mpts | 100 Mpts | 50 Mpts | 50 Mpts | 50 Mpts |
| Integrated Arbitrary/Function Generator | 50 MHz (opt) | 50 MHz (opt) | None | None | 100 MHz (opt.) | None |
| Digital / Logic Analysis Channels (MSO) | Up to 32 (opt) | Up to 64 (opt) | 16 (opt.) | 16 (opt.) | 16 (opt.) | 16 (opt) |
| Waveform Capture Rate (wfms / Sec) | >500,000 | >500,000 | >1,100 | 950,000 | >1,000,000 | Not Available |
| RMS Noise, 1mV/div, at 1 GHz, 4GHz, 8GHz | 60 µV, 97 µV, 169 µV | 254 µV, NA, NA | 90 µV, 153 µV, 260 µV | NA, 270 µV, 430 µV | 100 µV, 240 µV, NA | NA, 228 µV, 315 µV |
| ADC Resolution | 12 bits | 12 bits | 10 bits | 8 bits | 8 bits | 12 bits |
| Operating System | Embedded OS Windows 10 (opt) | Embedded OS Windows 10 (opt) | Windows 10 | Windows 10 | Windows 7 | Windows 10 |
| Standard Probes | 1 GHz Passive 3.9 pF loading | Up to 1 GHz Passive 3.9 pF loading | 500 MHz Passive 9.5 pF loading | None | 500 MHz Passive 10 pF loading | 500 MHz Passive 10 pF loading |
| Standard Warranty | 3 years | 3 years | 1 years | 3 years | 3 years | 3 years |
Power Supply Analysis
Make reliable, repeatable power quality, harmonics, switching loss, safe operating area measurements and more, with the automated power measurement and analysis. Save time with SPMI decoding and triggering. And rely on the 6 Series MSO low-noise performance for accurate evaluations of power supply noise.
Highlights
- Power quality and harmonics
- Switching loss and safe operating area
- In-circuit inductor and transformer analysis
- Bode plots and power supply rejection ratio
- SPMI and SVID bus decoding and analysis options
Jitter Analysis
Clocks are the heart of every embedded system and digital communication link. Jitter and other clock distortion can impact system operation, and getting to the root cause can be challenging without the right analysis tools.
Highlights
- Standard phase noise, TIE, and frequency plots and histograms
- Optional advanced analysis with jitter decomposition and clock recovery
Serial Standards Compliance Testing
Systems depend on fast, reliable data transfer. And high speed digital standards rely on rigorous test procedures to ensure that reliability. Automated compliance testing software manages the whole testing process with the 6 Series MSO — setup, making measurements, checking against standard limits, and generating thorough reports.
Highlights
- Ethernet 10/100/1000BASE-T
- Ethernet XGBT Compliance
- Ethernet NBASE-T Compliance
- USB 2.0
- MIPI D-PHY 1.2
- Automotive Ethernet 100/1000BASE-T1
Power Integrity and Power Management
Today’s boards can have 20 or more power rails. Most of these are less than a few volts and have strict noise limits. Accurate measurements demand special attention.
Highlights
- Digital Power Management option automates ripple and turn-on/off measurements
- Compatible with low-noise TPR Series power-rail probes
- Low measurement system noise
- Decoding options for SVID and SPMI
Advanced jitter and timing Analysis
With comprehensive jitter and eye-diagram analysis, and decomposition algorithms, DPOJET quantifies critical signal integrity parameters and enables you to identify noise sources in today’s high-speed serial, digital, and communication system designs.
Highlights
- Characterize performance of high-speed serial and parallel bus designs
- Characterize clock and data jitter/noise and signal integrity
- Characterize modulation of spread spectrum clock circuits
- Perform PHY testing of serial standards such as MIPI® D-PHY, DDR, and MOST
Serial compliance testing
Ensure interoperability of USB 2.0 and Ethernet serial designs with automated compliance testing.
Highlights
- Opt. ET3 Automated characterization, compliance and full PHY layer support for 10BASE-T, 100BASE-TX and 1000BASE-T
- Opt. USB2 Perform “one touch” compliance testing with automated instrument and test mode control
- Opt. HSIC Electrical signal quality test and protocol validation of HSIC host and device designs
- Opt. DDRA Complete memory interface analysis package for DDR1/2/3/4, LPDDR1/2/3/4 and GDDR3/5
Embedded serial decoding and analysis
Protocol decode, serial triggering, and analysis for I2C, SPI, RS-232/422/485/UART, USB 2.0, Ethernet, and MIL-STD-1553B simplify advanced system design debug and verification.
Highlights
- Opt. SR-AERO MIL-STD-1553B protocol trigger and decode of serial packet content
- Opt. SR-COMP RS-232/422/485/UART protocol trigger and decode of serial packet content
- Opt. SR-DPHY MIPI® D-PHY automatic decode and search on serial packet content
- Opt. SR-EMBD I2C and SPI protocol trigger and decode of serial packet content
- Opt. SR-ENET 10BASE-T and 100BASE-TX protocol search and decode of serial packet content
- Opt. SR-USB USB 2.0 low-speed, full-speed and high speed protocol trigger and decode of serial packet content
Automotive serial analysis and compliance testing
Simplify automotive system design debug and verification with protocol decode and serial trigger options for CAN, LIN and FlexRay buses. Ensure interoperability of BroadR-Reach and MOST serial devices with automated compliance testing.
Highlights
- Opt. SR-AUTO: CAN, LIN, and FlexRay protocol trigger and decode of serial packet content
- Opt. BRR: BroadR-Reach/100BASE-T1 and 1000BASE-T1 Automated Compliance Solution
- Opt. MOST: Electrical compliance and debug test solution for MOST50 and MOST150
Automated power measurements
Automated measurements and reporting ensure simple, repeatable power quality, switching loss, magnetic loss, harmonics measurements and more to meet the measurement demands of today’s efficient power converters. Plus, smart TekVPI current and differential probes reduce uncertainty and eliminate power measurement pitfalls.
Highlights
- Opt. PWR: Advanced power measurement and analysis solution for characterization and testing of power devices and power supplies
- Opt. USBPWR: Automated compliance testing for USB power adapters to USB2.0 Battery Charger Specification v1.1 and IEC 62684
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| View Datasheet | TCP0020 | Probe, AC/DC Current; 20 Amp; 50 MHz BW; TekVPI Interface; Certificate of Traceable Calibration Standard | Configure & Quote |
| View Datasheet | TCP0150 | Current Probe: 20 MHz, 5 mA to 212 A, AC/DC, TekVPI | Configure & Quote |
| View Datasheet | TCP312A | Probe, AC/DC Current; 30 Amp DC, DC-100MHZ, Certificate of Traceable Calibration Standard | Configure & Quote |
| View Datasheet | TCPA300 | Current Probe: 100 MHz, Amplifier (Requires Probe) | Configure & Quote |
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| View Datasheet | TDP0500 | Differential Probe: 500 MHz, 5X/50X, +/- 42V, TekVPI | Configure & Quote |
| View Datasheet | TDP1000 | Differential Probe: 1 GHz, 5X/50X, +/- 42V, TekVPI | Configure & Quote |
| View Datasheet | THDP0100 | Differential PROBE; 100 MHZ TekVPI DIFFERENTIAL HIGH VOLTAGE PROBE | Configure & Quote |
| View Datasheet | THDP0200 | Differential PROBE; 200 MHZ TekVPI DIFFERENTIAL HIGH VOLTAGE PROBE | Configure & Quote |
| View Datasheet | TMDP0200 | Differential PROBE; 200 MHZ TekVPI DIFFERENTIAL MEDIUM VOLTAGE PROBE;TMPD0200 | Configure & Quote |
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| View Datasheet | TPP0850 | High Voltage Probe: 800 MHz, 50X, 2.5 kV, Single-ended, TekVPI | Configure & Quote |
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| View Datasheet | TIVH02 | IsoVu optically isolated differential probe, 200 MHz, TekVPI, 3 m cable, includes 50X(MMCX50X) and 500X(SQPIN500X) tips | Configure & Quote |
| View Datasheet | TIVH02L | IsoVu optically isolated differential probe, 200 MHz, TekVPI, 10 m cable, includes 50X(MMCX50X) and 500X(SQPIN500X) tips | Configure & Quote |
| View Datasheet | TIVH05 | IsoVu optically isolated differential probe, 500 MHz, TekVPI, 3 m cable, includes 50X(MMCX50X) and 500X(SQPIN500X) tips | Configure & Quote |
| View Datasheet | TIVH05L | IsoVu optically isolated differential probe, 500 MHz, TekVPI, 10 m cable, includes 50X(MMCX50X) and 500X(SQPIN500X) tips | Configure & Quote |
| View Datasheet | TIVH08 | IsoVu optically isolated differential probe, 800 MHz, TekVPI, 3 m cable, includes 50X(MMCX50X) and 500X(SQPIN500X) tips | Configure & Quote |
| View Datasheet | TIVH08L | IsoVu optically isolated differential probe, 800 MHz, TekVPI, 10 m cable, includes 50X(MMCX50X) and 500X(SQPIN500X) tips | Configure & Quote |
| View Datasheet | TIVM1 | IsoVu optically isolated differential probe, 1 GHz, TekVPI, 3 m cable, includes 5X(IVTIP5X) and 25X(IVTIP25X) tips | Configure & Quote |
| View Datasheet | TIVM1L | IsoVu optically isolated differential probe, 1 GHz, TekVPI, 10 m cable, includes 5X(IVTIP5X) and 25X(IVTIP25X) tips | Configure & Quote |
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| TLP058 | 8 channel general purpose logic probe for 5 and 6 Series MSO oscilloscopes. Includes accessory kit. | Configure & Quote |
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| View Datasheet | TDP1500 | Differential Probe: 1.5 GHz, 1X/10X, +/-8.5V, TekVPI | Configure & Quote |
| View Datasheet | TDP3500 | Differential Probe: 3.5 GHz, 5X, +/- 2V, TekVPI | Configure & Quote |
| View Datasheet | TDP4000 | 4 GHz, Differential Probe with TekVPI interface | Configure & Quote |
| View Datasheet | TDP7704 | 4 GHz, TriMode Probe with TekFlex connector, TekVPI+ interface | Configure & Quote |
| View Datasheet | TDP7706 | 6 GHz, TriMode Probe with TekFlex connector, TekVPI+ interface | Configure & Quote |
| View Datasheet | TDP7708 | 8 GHz, TriMode Probe with TekFlex connector, TekVPI+ interface | Configure & Quote |
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| View Datasheet | TAP1500 | Active Probe: 1.5 GHz, 10X, Single-ended, TekVPI | Configure & Quote |
| View Datasheet | TAP2500 | Active Probe: 2.5 GHz, 10X, Single-ended, TekVPI | Configure & Quote |
| View Datasheet | TAP3500 | Active Probe: 3.5 GHz, 10X, Single-ended, TekVPI | Configure & Quote |
| View Datasheet | TAP4000 | 4 GHz, Single Ended Probe with TekVPI interface | Configure & Quote |
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| View Datasheet | TPP0502 | Passive Probe: 500 MHz, 2X, TekVPI | Configure & Quote |
| View Datasheet | TPP1000 | Passive Probe: 1 GHz, 10X, TekVPI | Configure & Quote |
| Datasheet Link | Probe | Description | Configure and Quote |
|---|---|---|---|
| View Datasheet | TPR1000 | 1 GHz, Single-Ended TekVPI Power-Rail Probe with TPR4KIT Standard Accessory Kit | Configure & Quote |
| View Datasheet | TPR4000 | 4 GHz, Single-Ended TekVPI Power-Rail Probe with TPR4KIT Standard Accessory Kit | Configure & Quote |
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