PicoScope 3406D MSO oscilloskop kit

Pico Technology
PP936
  • Beskrivelse
  • Mere information
  • Specifikationer
  • 4 analogue channels
  • 16 channel logic analyzer
  • 200 MHz analog bandwidth
  • 1 GS/s real-time sampling
  • 512 MS buffer memory
  • 100,000 waveforms per second
  •  Arbitrary Waveform Generator
  • USB 3.0 connected and powered
  • Serial decoding and mask testing as standard
  • Windows, Linux and Mac software

  • 200 MHz 4-channel mixed-signal oscilloscope with Arbitrary Waveform Generator and function generator.
    1 GS/s real-time sampling and 10 GS/s  repetitive sampling. 
    512 M/Sample buffer size.
    16 digital channels.

    4 x 250 MHz oscilloscope probes (x1/x10), Digital cable, 2 packs of 10 test clips and protective case for scope probes included.

    Ønsker du at måle både analoge og digitale signaler på samme tid?
    Med PicoScope Mixed-Signal Oscilloskoper (MSO) er det muligt at måle både analoge og digitale signaler på samme tid, med et enkelt et instrument, og se de analoge kurver og digitale data på samme skærm.

    Power, portability and performance
    PicoScope 3000D MSO Series USB-powered PC oscilloscopes are small, light, and portable and can easily slip into a laptop bag while offering a range of high performance specifications.
    This oscilloscope offer 4 analog channels, plus 16 digital channels and a built in function / arbitrary waveform generator.
    Supported by the advanced PicoScope 6 software, these devices offer an ideal, cost-effective package for many applications, including embedded systems design, research, test, education, service, and repair.

    High bandwidth and sampling rate
    Despite a compact size and low cost, there is no compromise on performance with bandwidths up to 200 MHz.  This bandwidth is matched by a real-time sampling rate of up to 1 GS/s, allowing detailed display of high frequencies. For repetitive signals, the maximum effective sampling rate can be boosted to 10 GS/s by using Equivalent Time Sampling (ETS) mode.

    Other oscilloscopes have high maximum sampling rates, but without deep memory they cannot sustain these rates on long timebases. The PicoScope 3000D MSO Series offers memory depths up to 512 million samples, more than any other oscilloscope in this price range, which enables the PicoScope 3406D MSO to sample at 1 GS/s all the way down to 50 ms/ div (500 ms total capture time).

    Managing all this data calls for some powerful tools. There’s a set of zoom buttons, plus an overview window that lets you zoom and reposition the display by simply dragging with the mouse or touchscreen. Zoom factors of several million are possible.  Other tools such as the waveform buffer, mask limit test, serial decode and hardware acceleration work with the deep memory making the PicoScope 3000D MSO one of the most powerful oscilloscopes on the market.

    Mixed–signal capability / Logic Analyzer
    The PicoScope 3000D Series Mixed-Signal Oscilloscopes include 16 digital inputs alongside the standard 2 or 4 analog channels, so that you can view digital and analog signals simultaneously.
    The digital inputs of your PicoScope 3000D MSO can be displayed individually or in named groups with binary, decimal or hexadecimal values shown in a bus-style display. A separate logic threshold from -5 V to +5 V can be defined for each 8–bit input port. The digital trigger can be activated by any bit pattern combined with an optional transition on any input. Advanced logic triggers can be set on either the analogue or digital input channels, or both to enable complex mixed–signal triggering.
    The digital inputs bring extra power to the serial decoding options.  You can decode serial data on all analogue and digital channels simultaneously, giving you up to 20 channels of data.  You can for example decode multiple SPI, I²C, CAN bus, LIN bus and FlexRay signals all at the same time!

    Serial bus decoding & protocol analysis
    The PicoScope 3000D MSO series include serial decoding capabilities as standard. The decoded data can be displayed in the format of your choice: In graph, In table, or both at once.

    In view format shows the decoded data (in hex, binary, decimal or ASCII) in a databus timing format, beneath the waveform on a common time axis, with error frames marked in red. These frames can be zoomed to investigate noise or signal integrity issues.
    In window format shows a list of the decoded frames, including the data and all flags and identifiers. You can set up filtering conditions to display only the frames you are interested in, search for frames with specified properties, or define a start pattern to signal when the program should list the data.  The statistics option reveals more detail about the physical layer such as frame times and voltage levels.  PicoScope can also import a spreadsheet to decode the hexadecimal data into user-defined text strings.
    PicoScope can decode I²C, RS-232/UART, SPI, I²S, USB, FlexRay, LIN and CAN bus data.  Expect this list to grow over time with future free software upgrades.  Any of the analog and digital inputs of the PicoScope 3000D MSO can be used to capture serial data channels, enabling decode of several different protocols at one time, which is valuable for thorough analysis of modern embedded systems and the proliferation of serial buses.

    More information on serial bus analysis >>

    Arbitrary waveform and function generator
    All PicoScope 3000D MSO units have a built-in function generator (sine, square, triangle, DC level, white noise, PRBS etc.). As well as basic controls to set level, offset and frequency, more advanced controls allow you to sweep over a range of frequencies. Combined with the spectrum peak hold option this makes a powerful tool for testing amplifier and filter responses.
    Trigger tools allow one or more cycles of a waveform to be output when various conditions are met such as the scope triggering or a mask limit test failing.

    An arbitrary waveform generator (AWG) is also included. AWG waveforms can be created or edited using the built-in AWG editor, imported from oscilloscope traces, or loaded from a spreadsheet.

    More information on the AWG >

    Spectrum analyser
    With the click of a button you can display a spectrum plot of selected channels up to the full bandwidth of the oscilloscope. A full range of settings gives you control over the number of spectrum bands, window types, and display modes (instantaneous, average, or peak-hold).
    You can display multiple spectrum views with different channel selections and zoom factors, and place these alongside time-domain views of the same data. A comprehensive set of automatic frequency-domain measurements can be added to the display, including THD, THD+N, SNR, SINAD and IMD. You can even use the AWG and spectrum mode together to perform swept scalar network analysis.

    More information on the PicoScope Spectrum analyser >>

    Signal integrity
    Most oscilloscopes are built down to a price. PicoScopes are built up to a specification.

    Careful front-end design and shielding reduces noise, crosstalk and harmonic distortion. Years of oscilloscope design experience can be seen in improved bandwidth flatness and low distortion.
    We are proud of the dynamic performance of our products, and publish their specifications in detail.
    The result is simple: when you probe a circuit, you can trust in the waveform you see on the screen.

    USB connectivity
    The USB connection not only allows high-speed data acquisition and transfer, but also makes printing, copying, saving, and emailing your data from the field quick and easy. USB powering removes the need to carry around a bulky external power supply, making the kit even more portable for the engineer on the move.

     PicoScope 3000 Series mixed signal oscilloscopes feature a SuperSpeed USB 3.0 connection, making the already-optimized process of data transfer and waveform update rates even faster. Further benefits of a USB 3.0 connection include faster saving of waveforms and faster gap-free continuous streaming of up to 125 MS/s when using the SDK, while the scope is still backward- compatible with older USB systems.

    Documents available for download:
    PicoScope 3000 Series data sheet
     

    Oscilloscope — vertical (analog inputs)
    Model PicoScope 3403 MSO PicoScope 3404 MSO PicoScope 3405 MSO PicoScope 3406 MSO
    Input channels 4 channels, BNC single-ended4 channels, BNC single-ended
    Bandwidth
    (−3 dB)
    50 MHz 70 MHz 100 MHz 200 MHz
    Rise time (calculated) 7.0 ns 5.0 ns 3.5 ns 1.75 ns
    Hardware bandwidth limiter Switchable, 20 MHz
    Vertical resolution 8 bits
    Input ranges ±20 mV to ±20 V full scale in 10 ranges
    Input sensitivity 4 mV/div to 4 V/div in 10 vertical divisions
    Input coupling AC / DC, programmable
    Input characteristics 1 MΩ ±1%, in parallel with 14 pF ±1 pF
    DC accuracy ±3% of full scale ±200 μV
    Analog offset range
    (vertical position adjust)
    ±250 mV (20 mV, 50 mV, 100 mV, 200 mV ranges)
    ±2.5 V (500 mV, 1 V, 2 V ranges)
    ±20 V (5 V, 10 V, 20 V ranges)
    Offset adjust accuracy ±1% of offset setting, additional to DC accuracy
    Overvoltage protection ±100 V (DC + AC peak)
    Oscilloscope — vertical (digital inputs, MSOs only)
    Input channels 16 channels (2 ports of 8 channels each)
    Input connectors 2.54 mm pitch, 10 x 2 way connector
    Maximum input frequency 100 MHz (200 Mb/s)
    Minimum detectable pulse width 5 ns
    Channel-to-channel skew 2 ns, typical
    Minimum input slew rate 10 V/µs
    Input impedance 200 kΩ ±2% ∥ 8 pF ±2 pF
    Input dynamic range ±20 V
    Overvoltage protection ±50 V
    Digital threshold range ±5 V
    Threshold grouping Two independent threshold controls: D0...D7 and D8...D15
    Threshold selection TTL, CMOS, ECL, PECL, user-defined
    Threshold accuracy < ±350 mV (inclusive of hysteresis)
    Hysteresis < ±250 mV
    Minimum input voltage swing 500 mV pk-pk
    Oscilloscope — horizontal
    Model PicoScope 3403 MSO PicoScope 3404 MSO PicoScope 3405 MSO PicoScope 3406 MSO
    Maximum sampling rate (real-time) 1 GS/s (1 analog channel in use)
    500 MS/s (up to 2 analog channels or 8-channel digital ports in use)
    250 MS/s (up to 4 analog channels or 8-channel digital ports in use)
    125 MS/s (all other combinations)
    Maximum sampling rate (repetitive signals)* 2.5 GS/s 5 GS/s 10 GS/s
    Maximum sampling rate
    (continuous streaming mode)
    10 MS/s in PicoScope software
    125 MS/s when using the supplied SDK (PC-dependent)
    Maximum capture rate 100,000 waveforms/second (PC-dependent)
    Timebase ranges 1 ns/div to 5000 s/div 500 ps/div to 5000 s/div
    Buffer memory 64 MS 128 MS 256 MS 512 MS
    Buffer memory (streaming) 100 MS in PicoScope software.
    Up to available PC memory when using supplied SDK.
    Maximum buffer segments 10 000 in PicoScope software
    130 000 using SDK 250 000 using SDK 500 000 using SDK 1 000 000 using SDK
    Timebase accuracy ±50 ppm ±2 ppm
    Timebase drift per year ±5 ppm ±1 ppm
    Sample jitter 3 ps RMS typical
    ADC sampling Simultaneous on all enabled channels

    * channel A only

    Dynamic performance
    Model PicoScope 3403 MSO PicoScope 3404 MSO PicoScope 3405 MSO PicoScope 3406 MSO
    Crosstalk Better than 400:1 up to full bandwidth (equal voltage ranges)
    Harmonic distortion < −50 dB at 100 kHz full scale input
    SFDR 52 dB typical at 100 kHz full scale input
    (except ±20 mV range: 44 dB)
    Noise 110 µV RMS 160 µV RMS
    (typical, on ±20 mV range)
    Bandwidth flatness +0.3 dB, −3 dB from DC to full bandwidth, typical
    Triggering – general
    Source Analog channels, digital channels (MSOs only)
    Trigger modes None, auto, repeat, single, rapid (segmented memory)
    Maximum pre–trigger capture Up to 100% of capture size
    Maximum post–trigger delay Up to 4 billion samples (selectable in 1 sample steps)
    Trigger rearm time < 0.7 µs at 1 GS/s sampling rate
    Maximum trigger rate Up to 10,000 waveforms in a 6 ms burst at 1 GS/s sampling rate, typical
    Triggering – analog channels
    Advanced triggers Edge, window, pulse width, window pulse width, dropout, window dropout, interval, logic, runt pulse
    Trigger types (ETS mode) Rising edge, falling edge (Ch A only)
    Trigger sensitivity Digital triggering provides 1 LSB accuracy up to full bandwidth of scope
    Trigger sensitivity (ETS mode) 10 mV p-p typical (at full bandwidth)
    Triggering – digital channels, MSO models only
    Source D0 to D15
    Trigger types Pattern, edge, combined pattern and edge, pulse width, dropout, interval, logic
    Function generator
    Standard output signals Sine, square, triangle, DC voltage, ramp, sinc, Gaussian, half-sine, white noise, PRBS
    Standard signal frequency DC to 1 MHz
    Sweep modes Up, down, dual with selectable start / stop frequencies and increments
    Triggering Free-run, or from 1 to 1 billion counted waveform cycles or frequency sweeps. Triggered from scope trigger or manually.
    Output frequency accuracy As oscilloscope
    Output frequency resolution < 0.01 Hz
    Output voltage range ±2 V
    Output voltage adjustment Signal amplitude and offset adjustable in approximate 1 mV steps within overall ±2 V range
    Amplitude flatness < 0.5 dB to 1 MHz typical
    DC accuracy ±1% of full scale
    SFDR > 60 dB 10 kHz full scale sine wave
    Output impedance 600 Ω
    Connector type Rear panel BNC (MSO models)
    Overvoltage protection ±20 V
    Arbitrary waveform generator
    Update rate 20 MS/s
    Buffer size 32 kS
    Resolution 12 bits (output step size approximately 1 mV)
    Bandwidth > 1 MHz
    Rise time (10% to 90%) < 120 ns

    Other AWG specifications as function generator

    Probe compensation output
    Impedance 600 Ω
    Frequency 1 kHz
    Level 2 V pk-pk, typical
    Spectrum analyzer
    Frequency range DC to maximum bandwidth of scope
    Display modes Magnitude, peak hold, average
    X axis Linear or log 10
    Y axis Logarithmic (dbV, dBu, dBm, arbitrary) or linear (volts)
    Windowing functions Rectangular, Gaussian, triangular, Blackman, Blackman–Harris, Hamming, Hann, flat-top
    Number of FFT points Selectable from 128 to 1 million in powers of 2
    Math channels
    General functions −x, x+y, x−y, x*y, x/y, x^y, sqrt, exp, ln, log, abs, norm, sign, sin, cos, tan, arcsin, arccos, arctan, sinh, cosh, tanh, derivative, integral, delay
    Filter functions Low pass, high pass, band stop, band pass
    Graphing functions Frequency, duty cycle
    Multi-waveform functions Min, max, average, peak
    Operands All analog and digital input channels, reference waveforms, time, constants, pi
    Automatic measurements (analog channels only)
    Oscilloscope mode AC RMS, true RMS, cycle time, DC average, duty cycle, falling rate, fall time, frequency, high pulse width, low pulse width, maximum, minimum, peak to peak, rise time, rising rate
    Spectrum mode Frequency at peak, amplitude at peak, average amplitude at peak, total power, THD %, THD dB, THD+N, SFDR, SINAD, SNR, IMD
    Statistics Minimum, maximum, average, standard deviation
    Serial decoding
    Protocols CAN, FlexRay, I²C, I²S, LIN, SPI, UART/RS-232
    Mask limit testing
    Statistics Pass/fail, failure count, total count
    Display
    Interpolation Linear or sin(x)/x
    Persistence modes Digital color, analog intensity, fast, custom
    Miscellaneous
    Output file formats BMP, CSV, GIF, JPEG, MATLAB 4, PDF, PNG, PSDATA, PSSETTINGS, TXT
    Output functions Copy to clipboard, print
    Software
    Windows software PicoScope for Windows
    Software development kit (SDK)
    Windows 7, 8 or 10 recommended (read more)
    Mac OS X software PicoScope for Mac OS X (beta)
    Software development kit (SDK)
    Mac OS X version 10.9 or 10.10 recommended
    Linux software PicoScope for Linux (beta)
    Software development kit (SDK)
    See Linux Software & Drivers for details of supported distributions
    Languages Chinese (simplified), Chinese (traditional), Czech, Danish, Dutch, English, Finnish, French, German, Greek, Hungarian, Italian, Japanese, Korean, Norwegian, Polish, Portuguese, Romanian, Russian, Spanish, Swedish, Turkish
    Physical specifications
    Dimensions 190 mm x 170 mm x 40 mm (including connectors)
    Weight < 0.5 kg
    Temperature range Operating: 0 °C to 40 °C (15 °C to 30 °C for stated accuracy).
    Storage: –20 °C to 60 °C
    Humidity range Operating: 5% RH to 80% RH non-condensing.
    Storage: 5% RH to 95% RH non-condensing
    Altitude range Up to 2000 m
    Pollution degree 2
    General
    Package contents PicoScope 3000D Series oscilloscope
    2 or 4 switchable 10:1/1:1 oscilloscope probes
    Quick Start Guide
    Software and reference CD
    USB 3.0 cable
    AC power adaptor (4-channel models only)
    TA136 digital cable (MSOs only)
    2 × TA139 pack of 10 logic test clips (MSOs only)
    PC connectivity USB 3.0 SuperSpeed (USB 2.0 compatible)
    Power requirements Powered from a single USB 3.0 port or two USB 2.0 ports.
    4-channel models: AC adaptor included for use with USB ports that supply less than 1200 mA
    Safety approvals Designed to EN 61010-1:2010
    EMC approvals Tested to EN 61326-1:2006 and FCC Part 15 Subpart B
    Environmental approvals RoHS and WEEE compliant