DATA SHEE T InfiniiVision 3000T X-Series Oscilloscopes
Table of Contents Touch, Discover, Solve ���������������������������������������������������������������������������������������������������������������������������������03 Touch: Designed-For-Touch Interface and Capacitive Touch Screen Simplify Use �����������������������������������04 Discover: The Industry’s Fastest Uncompromised Update Rate Increases the Chance of Finding Anomalies ����������������������������������������������������������������������������������������������������06 Discover: Excellent
Touch, Discover, Solve The InfiniiVision 3000A X-Series redefined oscilloscopes. It saw the most signal detail, provided more functionality than any other oscilloscope, and gave you maximum investment protection. It was also the most successful oscilloscope in Hewlett Packard, Agilent and Keysight Technologies, Inc.’s history. The 3000T X-Series continues that legacy.
Touch: Designed-For-Touch Interface and Capacitive Touch Screen Simplify Use From the start of product development, we designed every aspect of this oscilloscope to be seamlessly driven by a touch interface. Large, easy-to-touch targets, a graphical user interface that adapts to show you more and be easier to touch, and a large, sensitive, capacitive touch screen all combine to make operation quick and natural, just like your favorite tablet devices.
Touch: Designed-For-Touch Interface and Capacitive Touch Screen Simplify Use (Continued) Figure 5. See up to ten annotations on screen at once for documentation. The standard touch screen makes inputting notes simple. Figure 6. With the optional LAN/ VGA module you can email yourself setups, data and screenshots. Figure 7. A dock-able sidebar allows you to customize how you view your measurements.
Discover: The Industry’s Fastest Uncompromised Update Rate Increases the Chance of Finding Anomalies Industry-leading uncompromised update rate What is waveform update rate? If you can’t see the problem, you can’t fix the problem. With an industry-leading update rate of over one million waveforms per second, the InfiniiVision 3000T X-Series gives you the highest probability of capturing random and infrequent events that you would miss on an oscilloscope with a lower waveform update rate.
Discover: The Industry’s Fastest Uncompromised Update Rate Increases the Chance of Finding Anomalies (Continued) But all specs aren’t equal. Why is an uncompromised update rate important? Many vendors claim an update rate specification, but that is only in a special mode, or without any features turned on. Table 1 shows the 3000T X-Series’ update rate versus a competing oscilloscope. When debugging or troubleshooting a project, it is important that you see as much signal detail as possible.
Discover: The Industry’s Fastest Uncompromised Update Rate Increases the Chance of Finding Anomalies (Continued) MegaZoom IV smart memory technology enables uncompromised update rate Traditionally, CPU processing was the major bottleneck for oscilloscope waveform update rate and responsiveness. Typically, the CPU handles interpolations, logic channel plotting, serial bus decoding, measurements and more, and the waveform update rate drops dramatically as these features are turned on.
Discover: Excellent Signal Integrity Allows you to See More Signal Detail The 3000T X-Series has excellent signal integrity, including full bandwidth to 1 mV/div and the ability to get up to 12-bits of resolution using the high resolution acquisition mode. Some oscilloscopes in this class limit their bandwidth at smaller volt-per-division settings without on-display user notifications. This is likely to keep the noise acceptable at lower volt-perdivision settings.
Discover: Industry Exclusive Zone Touch Trigger Makes Triggering Simple An uncompromised update rate allows you to see an anomaly, but to continue the debug process you have to isolate it. Setting up a trigger has been a challenge since oscilloscopes introduced a triggered waveform. While oscilloscopes have added more and more triggering capability over the years, setting up triggers has remained complex at best and impossible at worst.
Discover: Industry Exclusive Zone Touch Trigger Makes Triggering Simple (Continued) Steps to trigger on a runt signal: 3000T X-Series: 1. Draw box on the runt 2. Select “must intersect” 3. Draw a second box if needed to further isolate the runt from other runts 4. Select “must intersect” or “must not intersect” In some cases you may have to select the appropriate source if it wasn’t already selected. Find us at www.keysight.
Discover: Standard Segmented Smart Memory Allows you to Capture Longer Periods of Time at High Sample Rates Acquisition memory size is an essential oscilloscope specification because it determines sustainable sample rate and the amount of time you can capture in a single acquisition. In general, longer memory is better. However, no memory will always be long enough to capture all the signals you need, especially when capturing infrequent anomalies, data bursts, or multiple serial bus packets.
Discover: Dedicated Search and Navigation Helps you Navigate Deep Memory Parametric and serial bus search and navigation comes standard on the 3000T X-Series oscilloscopes. When you are capturing long, complex waveforms using an oscilloscope’s acquisition memory, manually scrolling through stored waveform data to find specific events of interest can be slow and cumbersome.
Solve: Integrated Hardware-Based Serial Decoding and Triggering (Option) Makes Easy Work of Low Speed Serial Buses Keysight InfiniiVision oscilloscopes, including the new 3000T X-Series, use hardware-based serial protocol decoding. Some other vendors use software post-processing techniques to decode serial packets ⁄ frames, and therefore have slow waveform and decode capture rates and could miss critical events and errors due to a long dead-time.
Solve: Segmented Smart Memory Combined With Protocol Analysis Enables Insights Over Long Periods Of Time Segmented memory works in conjunction with any of the optional serial protocol decodes. For example, by setting the trigger condition to “SENT serial bus error,” segmented memory captures and stores only SENT pulse period error packets and stitches together each segment for easy viewing of the decoded data in the lister. You can quickly compare time tags to discover time intervals between errors.
Solve: Dedicated Frequency/Spectrum Analysis Allows you to Time-Correlate Analog, Digital, and frequency Domain Signals in a Single Instrument Viewing the frequency content of waveforms is greatly simplified by a dedicated FFT button and level adjustment knobs. Pop up keypads make inputting start, stop, span and center frequency easy.
Solve: Standard Advanced Math Capabilities Allow New Views of Signals Advanced math analysis provides a variety of additional math functions and comes standard on the 3000T X-Series. Additionally, math functions can be nested to provide additional insight into your designs. You can create up to two math functions, with one math function and FFT displayed at a time.
Solve: Class Leading Measurements Provide Quick Answers Automatic measurements are the essential tool of an oscilloscope. In order to make quick and efficient measurements, the 3000T X-Series provides 37 powerful automatic measurements and can display up to 8 at a time. Measurements can be gated by auto select, main window, zoom window, or cursors and include full statistics.
Solve: 7-in-1 Integration Allows New Measurement Possibilities In addition to the class leading oscilloscope and powerful serial protocol analysis capabilities, the 3000T X-Series offers five additional integrated instrument capabilities not always found in this class of oscilloscope. Integrated mixed signal oscilloscope (MSO - optional) The 3000T X-Series offers 16 optional, integrated and upgradable digital channels.
Solve: 7-in-1 Integration Allows New Measurement Possibilities (Continued) Integrated DVM: Standard 3-digit digital voltmeter An integrated 3-digit voltmeter is included standard on your 3000T X-Series oscilloscope. The voltmeter operates through the same probes as the oscilloscope channels. However, the DVM measurements are made independently from the oscilloscope acquisition and triggering system so you can make both the DVM and triggered oscilloscope waveform captures with the same connection.
Solve: Hardware Accelerated Mask/Limit Testing (Option) Makes It Easy to See the Performance of your Device Whether you are performing pass/fail tests to specified standards in manufacturing or testing for infrequent signal anomalies, mask/limit testing can be a valuable productivity tool (DSOX3MASK). The 3000T X-Series features powerful hardwarebased mask testing that can perform up to 270,000 tests per second.
Solve: Innovative Power Rail Probe (Option) Allows Enhanced Views The power rail noise, ripple, and transients measurements can be challenging due to required offset range and mV sensitivity. With its ± 24 V offset range, ultra-low noise 1:1 attenuation ratio, and 2-GHz bandwidth, the N7020A power rail probe is for users making critical power integrity measurements that need mV sensitivity on their DC power rails. Figure 30a.
While the “Touch, Discover, Solve” elements of the scope highlight the key features that will make it easy to debug and troubleshoot your device, there are other features that you may also want to consider when choosing your next oscilloscope. Total cost of ownership The 3000T X-Series offers an extremely low cost of ownership.
7-in-1 instruments helps you solve your problems: oscilloscope channels digital channels, frequency response analysis, serial protocol analysis, WaveGen, DVM, and 8-digit counter-totalizer. Fully upgradeable including bandwidth. “Designed for Touch”. 8.5 inch capacitive touch screen with gesture support. Uncompromised 1,000,000 waveform per second update rate minimize the dead-time for maximum probability of capturing infrequent events and anomalies. Integrated DVM and 8-digit counter with totalizer.
Reconfigurable Docking panels with the capacitive touch screen adds a new dimension to the usability. Zone touch trigger, if you can see it, you can trigger on it by drawing a box. Standard advanced math displays FFT and one math functions for your deep analysis. Standard Gated FFT for your time correlated analog, digital, and frequency domain signal analysis. Independent knobs per channel for fast operation. All front panel knobs are push-able for access to common controls.
Configuration Step 1. Choose your bandwidth and number of channels. 3000 X-Series specification overview 3012T 3014T Bandwidth (–3 dB) 100 MHz Calculated rise time (10 to 90%) ≤ 3.5 ns Input channels DSOX 2 4 MSOX 2 + 16 4 + 16 3022T 200 MHz ≤ 1.75 ns 2 2 + 16 3024T 4 4 + 16 3032T 350 MHz ≤ 1 ns 2 2 + 16 3034T 4 4 + 16 3052T 500 MHz ≤ 700 ps 2 2 + 16 3054T 4 4 + 16 3102T 1 GHz ≤ 450 ps 2 2 + 16 3104T 4 4 + 16 For example, if you chose 1 GHz, 4+16 channels, the model number will be MSOX3104T.
Configuration (Continued) Step 3. Choose your probes. For a complete list of compatible probes, visit www.keysight.com/find/scope_probes. In general, the 3000T X-Series supports up to two active probes simultaneously with some exceptions. Contact Keysight for more detail.
Performance Characteristics DSO and MSO 3000 X-Series oscilloscopes 3000T X-Series specification overview Bandwidth 1 (–3 dB) Calculated rise time (10 to 90%) Input channels DSOX MSOX Maximum sample rate Maximum memory depth Display size and type Waveform update rate Vertical system analog channels Hardware bandwidth limits Input coupling Input impedance Input sensitivity range Vertical resolution Maximum input voltage DC vertical accuracy DC vertical gain accuracy 1 DC vertical offset accuracy Channel-t
Performance Characteristics (Continued) Horizontal system analog channels Time base range Time base accuracy 1 Time base delay Pre-trigger time range Post-trigger Channel-to-channel deskew range Δ Time accuracy (using cursors) Modes XY Horizontal system digital channels Minimum detectable pulse width Channel-to-channel skew Acquisition system Maximum analog channels sample rate Maximum analog channels record length Maximum digital channels sample rate Maximum digital channels record length Acquisition mode
Performance Characteristics (Continued) Trigger system Trigger sources Trigger modes Trigger coupling Trigger holdoff range Trigger sensitivity Internal 1 External 1 Trigger level range Any channel External Trigger type selections Zone (HW zone qualifier) Edge Edge then edge (B trigger) Pulse width Runt Setup and hold Rise/fall time Analog channel (1 ~ 4), digital channel (D0 ~ D15), line, external, WaveGen (1 or mod) (FM/FSK) Normal (triggered): Requires trigger event for scope to trigger Auto: Trigg
Performance Characteristics (Continued) Trigger type selections Nth edge burst Pattern Or Video Enhanced Video (optional) USB I2C (optional) SPI (optional) RS-232/422/485/UART (optional) I²S (optional) CAN (optional) LIN (optional) CXPI (optional) FlexRay (optional) MIL-STD 1553 (optional) ARINC 429 (optional) SENT (optional) User-definable Manchester/NRZ (optional) USB PD (optional) Find us at www.keysight.com Trigger on the Nth (1 to 65535) edge of a pulse burst.
Performance Characteristics (Continued) Waveform measurements Single cursor accuracy: ± [DC vertical gain accuracy + DC vertical offset accuracy + 0.25% full scale] Cursors 2 Dual cursor accuracy: ± [DC vertical gain accuracy + 0.5% full scale] 1 Units: Seconds(s), Hz (1/s), phase (degrees), ratio (%) Automatic measurements Measurements continuously updated with statistics. Cursors track last selected measurement.
Performance Characteristics (Continued) WaveGen – Built-in function/arbitrary waveform generator (specifications are typical) WaveGen out Front-panel BNC connector Waveforms Sine, Square, Ramp, Pulse, DC, Noise, Sine Cardinal (Sinc), Exponential Rise, Exponential Fall, Cardiac, Gaussian Pulse, and Arbitrary Modulation Modulation types: AM, FM, FSK Carrier waveforms: sine, ramp, sine cardinal, exponential rise, exponential fall, and cardiac Modulation source: internal (no external modulation capability) AM:
Performance Characteristics (Continued) WaveGen – Built-in function/arbitrary waveform generator (specifications are typical) (Continued) Frequency Sine wave and ramp accuracy: 130 ppm (frequency < 10 kHz) 50 ppm (frequency > 10 kHz) Square wave and pulse accuracy: [50+frequency/200] ppm (frequency < 25 kHz) 50 ppm (frequency ≥ 25 kHz) Resolution: 0.1 Hz or 4 digits, whichever is larger Amplitude Range: 20 mVpp to 5 Vpp into Hi-Z 1 10 mVpp to 2.
Performance Characteristics (Continued) Connectivity Standard ports One USB 2.0 hi-speed device port on rear panel. Supports USBTMC protocol Two USB 2.0 hi-speed host ports, front and rear panel Supports memory devices, printers and keyboards Optional ports GPIB, LAN (10/100Base-T), WVGA video out Trigger out BNC connector on the rear panel.
Performance Characteristics (Continued) Nonvolatile storage Reference waveform display Data/file save Setup/image Waveform data Application data Analysis results (*.
License-Only Bandwidth Upgrades and Measurement Applications Entitlement certificate Stick-0n label sheet Keysight sales partner Keysight software licensing website Customer 5 Email containing attached licensed file USB drive containing license file License only bandwidth upgrade models 3000T X-Series DSOXT3B1T22 License only 100 to 200 MHz upgrade, 2 ch DSOXT3B1T24 License only 100 to 200 MHz upgrade, 4 ch DSOXT3B3T52 License only 350 to 500 MHz upgrade, 2 ch DSOXT3B3T54 License only 350 to 500 MHz upg
Return-to-Keysight Service Center Bandwidth Upgrades Keysight Business Center Ship scope per instructions Keysight sales partner Keysight service center Customer Upgraded scope shipped back Return-to-Keysight bandwidth upgrade models 3000T X-Series DSOXT3B1T32U Service center 100 to 350 MHz upgrade, 2 ch DSOXT3B1T52U Service center 100 to 500 MHz upgrade, 2 ch DSOXT3B1T102U Service center 100 to 1 GHz upgrade, 2 ch DSOXT3B1T34U Service center 100 to 350 MHz upgrade, 4 ch DSOXT3B1T54U Service center 100
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