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    ¿À½Ç·Î½ºÄÚÇÁ, PC Oscilloscope MSO 2+16Ch, FG/AWG, 25MHz, probes, accessories, PicoScope 2205A MSO
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    Á¦Ç°ÄÚµå PicoScope 2205A MSO
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    Overview


    USB oscilloscopes & mixed signal oscilloscopes


    ¢º 2 channel, 4 channel and MSO models

    ¢º 6 instruments in one

    ¢º Ultra-compact design

    ¢º Up to 100 MHz bandwidth

    ¢º Up to 128 MS buffer memory

    ¢º Decode 16 serial protocols as standard

    ¢º USB connected and powered

    ¢º Windows, Linux and Mac software


    Your complete test & measurement laboratory

    You can use your PicoScope 2000 Series as an advanced oscilloscope, spectrum analyzer, function generator, arbitrary waveform generator and protocol decoder out of the box. Mixed signal models also add a 16 channel logic analyzer. A complete electronics lab in one compact, low-cost, USB-powered unit.


    The PicoScope 2000A models deliver unbeatable value for money and are ideal for education, hobby and field service use. In the lab the low cost allows one scope per person rather than having to share.


    The PicoScope 2000B models have the added benefits of deep memory (up to 128 MS), higher bandwidth (up to 100 MHz) and faster waveform update rates. PicoScope 2000B models give you the performance to carry out advanced analysis of your waveforms. They are ideal for design, debug and serial decoding.


    The Configure Your Scope panel on the left gives a quick guide to the models, specifications and prices.


    High-end oscilloscope

    At the heart of every PicoScope 2000 is an advanced oscilloscope which offers everything you would expect and much more besides:

    Oscilloscope display showing zoom, rulers and measurements


    ¢º 10,000 waveform circular buffer

    ¢º Up to 80,000 waveforms per second update rate

    ¢º Mask limit testing

    ¢º Advanced math & filtering

    ¢º Measurements with statistics

    ¢º Advanced digital triggering

    ¢º Resolution enhancement to 12 bits


    More details on the above and many other options can be found in the Features tab.


    Logic analyzer / mixed signal ability

    The PicoScope 2000 Series includes mixed signal models that include 16 digital inputs so that you can view digital and analog signals simultaneously.


    The digital inputs 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 analog 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 analog and digital channels simultaneously, giving you up to 18 channels of data. You can for example decode multiple SPI, I©÷C, CAN bus, LIN bus and FlexRay signals all at the same time!


    App note: Debugging an I©÷C Bus with a PicoScope Mixed–Signal Oscilloscope

    Mixed Signal Oscilloscope / Logic Analyzer (roll over red circles for description)


    Serial bus decoding and protocol analysis

    PicoScope can decode 1-Wire, ARINC 429, CAN, DCC, DMX512, Ethernet, FlexRay, I©÷C, I©÷S, LIN, PS/2, SENT, SPI, UART (RS-232 / RS-422 / RS-485), and USB 1.1 protocol data as standard, with more protocols in development and available in the future with free-of-charge software upgrades.


    Multiple protocols can be captured and decoded, the only limit being the number of available channels (18 for MSO models). The ability to observe data flow across a bridge (such as CAN bus in, LIN bus out) is incredibly powerful.


    The deep memory buffers make the PicoScope 2000B models ideal for serial decoding as it is possible to capture and decode many thousands of frames of data.


    FFT spectrum analyzer

    Increasing the number of points in a FFT to 1 million increases frequency resolution and reduces the noise floor.


    The spectrum view plots amplitude against frequency, revealing details that would otherwise be hidden in an oscilloscope view. It is ideal for finding noise, crosstalk or distortion in signals.


    You can display multiple spectrum views alongside oscilloscope 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. A mask limit test can be applied to a spectrum and you can even use the AWG and spectrum mode together to perform swept scalar network analysis.


    With PicoScope 2000B models FFTs of up to 1 million points can be computed in milliseconds giving superb frequency resolution. Increasing the number of points in a FFT also lowers the noise floor revealing otherwise hidden signals.


    Arbitrary waveform generator (AWG) and function generator

    All PicoScope 2000 Series oscilloscopes have a built-in function generator and arbitrary waveform generator (AWG) which output signals on a front panel BNC.


    The function generator can produce sine, square, triangle and DC level waveforms, and many more besides, while the AWG allows you to import custom waveforms from data files or create and modify them using the built-in graphical AWG editor.


    As well as level, offset and frequency controls, advanced options allow you to sweep over a range of frequencies. Combined with the advanced spectrum mode, with options including peak hold, averaging and linear/log axes, this creates a powerful tool for testing amplifier and filter responses.


    PicoScope 2000B models have trigger options that 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.


    Download new features or write your own

    Frequency response analyzer / Bode plot

    The software development kit (SDK) allows you to write your own software and includes drivers for Microsoft Windows, Apple Mac (OS X) and Linux (including Raspberry Pi and BeagleBone).


    Example code shows how to interface to third-party software packages such as Microsoft Excel, National Instruments LabVIEW and MathWorks MATLAB.


    There is also an active community of PicoScope users who share code and applications on the Pico forum and PicoApps section of the picotech.com web site. The Frequency Response Analyzer shown opposite is one of the most popular 3rd party applications.





    Features


    Small on the outside, big features inside¡¦


    Oscilloscope mask test actions

    Alarms provides several actions that can occur when a waveform fails a mask test.


    Arbitrary waveform generator (AWG)

    Arbitrary waveform generator. Waveforms can be imported from the oscilloscope, spreadsheets or saved files. The graphical editor allows waveforms to be built from standard shapes or drawn by hand

    CAN bus decoding

    CAN bus decoding showing time and voltage measurement statistics

    Digital filtering

    The measured signal (blue) has a significant amount of noise that has been removed by adding a software based low pass filter. This allows both the live and filtered signals to be viewed at the same time.

    Oscilloscope mask limit testing

    Pass / fail mask limit tests can be added to oscilloscope and spectrum views. This allows a signal to be tested in both the time and frequency domain


    Oscilloscope phase rulers

    Each channel has independent draggable rulers for amplitude measurement. Vertical rulers can measure time, percent (for duty cycle) or phase in degrees.

    Easy-to-use interface

    PicoScope has a large, high resolution display. The easy to use interface can be controlled by mouse, keyboard shortcuts or touchscreen.

    SENT bus decoding

    The relatively new SENT bus (Single Edge Nibble Transmission) is one of the many protocols PicoScope can decode as standard

    Serial decoding protocols

    PicoScope can decode multiple different serial protocols at the same time

    Signal generator sweep option

    The signal generator has a dozen standard waveforms. Frequency, amplitude and offset can be set. Advanced options include frequency sweeping and the ability to output a number of waveform cycles on a trigger event


    Mask limit testing

    The waveform buffer navigator can quickly highlight waveforms that fail the mask limit test


    Mask limit testing allows you to compare live signals against known good signals, and is designed for production and debugging environments. Simply capture a known good signal, draw a mask around it, and then attach the system under test. PicoScope will check for mask violations and perform pass/fail testing, capture intermittent glitches, and can show a failure count and other statistics in the Measurements window.


    Math channels and filters


    On many oscilloscopes waveform math just means simple calculations such as A + B. With a PicoScope it means much, much more.


    With PicoScope 6 you can select simple functions such as addition and inversion, or open the equation editor to create complex functions involving filters (lowpass, highpass, bandpass and bandstop filters), trigonometry, exponentials, logarithms, statistics, integrals and derivatives.


    Waveform math also allows you to plot live signals alongside historic peak, averaged or filtered waveforms.


    You can also use math channels to reveal new details in complex signals. An example would be to graph the changing duty cycle or frequency of your signal over time.


    Waveform buffer and navigator


    Ever spotted a glitch on a waveform, but by the time you¡¯ve stopped the scope it has gone? With PicoScope you no longer need to worry about missing glitches or other transient events. PicoScope can store the last ten thousand oscilloscope or spectrum waveforms in its circular waveform buffer.


    The buffer navigator provides an efficient way of navigating and searching through waveforms, effectively letting you turn back time. Tools such as mask limit testing can also be used to scan through each waveform in the buffer looking for mask violations.


    Alarms


    PicoScope can be programmed to execute actions when certain events occur.


    The events that can trigger an alarm include mask limit fails, trigger events and buffers full.


    The actions that PicoScope can execute include saving a file, playing a sound, executing a program or triggering the signal generator / AWG.


    Alarms, coupled with mask limit testing, help create a powerful and time saving waveform monitoring tool. Capture a known good signal, auto generate a mask around it and then use the alarms to automatically save any waveform (complete with a time/date stamp) that does not meet specification.


    80 000 waveforms per second


    Oscilloscopes with high waveform capture rates provide better visual insight into signal behavior and dramatically increase the probability that the oscilloscope will quickly capture transient anomalies such as jitter, runt pulses and glitches – that you may not even know exist.


    The PicoScope 2000A models can capture up to 2000 waveforms per second, whilst the 2000B models use hardware acceleration to boost this to 80 000 waveforms per second. In both cases these are the fastest waveform update rates available at this price point.


    Deep-memory oscilloscopes

    Deep memory oscilloscopes are ideal for serial decoding


    PicoScope 2000B model oscilloscopes have waveform buffer sizes up to 128 million samples – many times larger than competing scopes of either PC-based or traditional benchtop design.


    Deep memory produces several benefits: fast sampling at long timebases, timebase, zoom, and memory segmentation to let you capture a sequence of events. Deep memory oscilloscopes are also ideal for serial decoding applications as they allow the capture of many thousands of frames of data.


    Most other scopes with large buffers slow down when using deep memory, so you have to manually adjust the buffer size to suit each application. You don¡¯t have to worry about this with PicoScope deep-memory scopes as hardware acceleration ensures you can always use deep memory while displaying at full speed.


    The lower cost / bandwidth PicoScope 2000A models have smaller internal memories but when sampling at rates of less than 1 MS/s use USB streaming and PC memory to provide a 100 million sample buffer.


    Digital triggering


    The majority of digital oscilloscopes still use an analog trigger architecture based on comparators. This causes time and amplitude errors that cannot always be calibrated out and often limits the trigger sensitivity at high bandwidths.


    In 1991 Pico pioneered the use of fully digital triggering using the actual digitized data. This technique reduces trigger errors and allows our oscilloscopes to trigger on the smallest signals, even at the full bandwidth. Trigger levels and hysteresis can be set with high precision and resolution.


    The reduced rearm delay provided by digital triggering, together with segmented memory, allows the capture of events that happen in rapid sequence. On many of our products, rapid triggering can capture a new waveform every microsecond until the buffer is full.


    Automated measurements


    Making measurements in PicoScope is easy. A large number of measurements are possible thanks to the automated measurement system. Using the Measurements menu you can select what measurements you want PicoScope to make, and PicoScope will then automatically display a table of their values.


    Reference waveforms


    With PicoScope you can display stored waveforms alongside live traces. You can apply all the same functions to the reference waveforms as you can to live waveforms, such as automatic and manual measurements, scaling and offset, and exporting to a file. Reference waveforms are especially useful for production testing and diagnostics, where they allow you to compare waveforms from the equipment under test with known good waveforms.


    You can also shift the timebase of a reference waveform relative to live waveform data: click the color-coded axis control button at the bottom of the y axis for the reference waveform and adjust the box marked ¡®Delay¡¯.


    Resolution enhancement

    Resolution enhancement is a technique for increasing the effective vertical resolution of the scope at the expense of high-frequency detail. It is useful for resolving small signal details and for reducing unwanted noise. Unlike waveform averaging it can be used on single-shot signals.


    Custom probes in PicoScope oscilloscope software


    The custom probes feature allows you to correct for gain, attenuation, offsets and nonlinearities in probes, sensors or transducers that you connect to the oscilloscope. This could be used to scale the output of a current probe so that it correctly displays amperes. A more advanced use would be to scale the output of a nonlinear temperature sensor using the table lookup function.


    Definitions for standard Pico-supplied oscilloscope probes and current clamps are included. User-created probes may be saved for later use.


    Powerful tools provide

    endless options



    Your PicoScope is provided with many powerful tools to help you acquire and analyze waveforms. While these tools can be used on their own, the real power of PicoScope lies in the way they have been designed to work together.


    As an example, the rapid trigger mode allows you to collect 10,000 waveforms in a few milliseconds with minimal dead time between them. Manually searching through these waveforms would be time-consuming, so just pick a waveform you are happy with and let the mask tools scan through for you. When done, the measurements will tell you how many have failed and the buffer navigator allows you to hide the good waveforms and just display the problem ones. This video shows you how.


    Perhaps instead you want to plot changing duty cycle as a graph? How about outputting a waveform from the AWG and also automatically saving the waveform to disk when a trigger condition is met? With the power of PicoScope the possibilities are almost endless. To find out even more about the capabilities of PicoScope software, visit our A to Z of PC Oscilloscopes.





    Specifications


    PicoScope 2000 Specifications

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