Oscyloskop PicoScope 6406E
Informacje o produkcie
Oscyloskopy PicoScope z dużą pamięcią serii 6000E
Oscyloskopy PicoScope 6000E dostępne w wersji o stałej 8 bitowej rozdzielczości oraz wersji FlexRes zapewniającej rozdzielczość pionową w zakresie od 8 do 12 bitów, z szerokością pasma 1 GHz i częstotliwością próbkowania 5 GS/s. Dostępna jest również wersja czterokanałowa PicoScope 6428E-D, która oferuje szerokość pasma 3 GHz i częstotliwość próbkowania 10 GS/s.
Modele z czterema lub ośmioma kanałami analogowymi charakteryzują się rozdzielczością taktowania i amplitudy potrzebną do wykrycia krytycznych problemów z integralnością sygnału, takich jak błędy synchronizacji, usterki, zaniki, przesłuchy i problemy z metastabilnością.
- Pasmo do 3 GHz
- 8-bitowy do 12-bitowy przetwornik ADC FlexRes®
- Do wyboru 4 (do 3 GHz) lub 8 (do 500 MHz) kanałów analogowych
- Obsługuje do 16 cyfrowych kanałów MSO
- Czas przechwytywania 200 ms przy 5 GS/s
- Do 10 GS/s z PicoScope 6428E-D
- Rozmiar pamięci wbudowanej do 4 GS
- 50 MHz, 200 MS/s, 14-bitowy generator AWG
- Szybkość aktualizacji do 300 000 przebiegów na sekundę
- Dołączone oprogramowanie PicoScope, PicoLog® i PicoSDK®
- W zestawie 38 dekoderów/analizatorów protokołu szeregowego
- Testowanie limitu maski i działania definiowane przez użytkownika
- Znakowanie czasowe przebiegów w wysokiej rozdzielczości
- Ponad dziesięć milionów wyników DeepMeasure™ na akwizycję
- Zaawansowane wyzwalacze: zbocze, okno, szerokość impulsu, szerokość impulsu okna, zanik poziomu, zanik okna, interwał, runt, czas narastania/opadania i logika
Typowe zastosowanie
Seria oscyloskopów PicoScope 6000E wraz z oprogramowaniem PicoScope jest idealna dla inżynierów-projektantów pracujących z wysokowydajnymi systemami wbudowanymi, przetwarzaniem sygnałów, energoelektroniką, mechatroniką i projektami motoryzacyjnymi, a także dla badaczy i naukowców pracujących nad wielokanałowymi, wysokowydajnymi eksperymentami w laboratoriach fizycznych, akceleratorach cząstek i podobne ośrodkach badawczych.
Interfejs programowania aplikacji (API) PicoScope 6000E zapewnia dostęp programistyczny do pełnego zestawu zaawansowanych funkcji sprzętowych i może być używany do tworzenia włąswnych niestandardowych aplikacji i aplikacji typu OEM.
Co to jest FlexRes?
Oscyloskopy Pico FlexRes o elastycznej rozdzielczości umożliwiają rekonfigurację sprzętu oscyloskopu w celu optymalizacji częstotliwości próbkowania lub rozdzielczości pionowej. Oznacza to, że można w łatwy sposób rekonfigurować sprzętowo oscyloskop aby był szybkim (5 GS/s) 8-bitowy oscyloskopem do obserwacji sygnałów cyfrowych bądź 10-bitowym oscyloskopem do zastosowań ogólnych czy 12-bitowym oscyloskopem o wysokiej rozdzielczości do prac audio i inne zastosowań analogowych.
Niezależnie od tego, czy pojawia się potrzeba przechwytywania i dekodowania szybkich sygnaów cyfrowych, czy potrzeba wykrywania zniekształceń w wrażliwych sygnałach analogowych, zawsze odpowiedzią będą oscyloskopy z FlexRes.
Funkcja FlexRes jest dostępna w 8-kanałowym PicoScope 6824E oraz 4-kanałowych 6424E, 6425E i 6426E.
Zwiększenie rozdzielczości — technika cyfrowego przetwarzania sygnału wbudowana w oprogramowanie PicoScope może jeszcze bardziej zwiększyć efektywną rozdzielczość pionową oscyloskopu do 16 bitów
Więcej informacji na temat elastycznej rozdzielczości >
FlexRes - jak to działa
Większość oscyloskopów cyfrowych uzyskuje wysoką częstotliwość próbkowania poprzez przeplatanie wielu 8-bitowych przetworników ADC. Ten proces przeplatania wprowadza błędy, które zawsze powodują, że wydajność dynamiczna jest gorsza niż w przypadku poszczególnych rdzeni przetworników ADC.
Architektura FlexRes wykorzystuje wiele przetworników ADC o wysokiej rozdzielczości na kanałach wejściowych w różnych kombinacjach przeplatanych czasowo i równoległych, aby zoptymalizować na przykład częstotliwość próbkowania do 5 GS/s przy 8 bitach lub rozdzielczość do 12 bitów przy 1,25 GS/s.
Dla uproszczenia diagram przedstawia jeden bank czterech kanałów; 8-kanałowy PicoScope 6824E ma dwa takie banki. 4-kanałowe modele FlexRes wykorzystują jeden poczwórny układ ADC na każdą parę kanałów analogowych
W połączeniu ze wzmacniaczami o wysokim stosunku sygnału do szumu i architekturą systemu o niskim poziomie szumów, technologia FlexRes może przechwytywać i wyświetlać sygnały o częstotliwości do 1 GHz z dużą częstotliwością próbkowania lub sygnały o niższej prędkości z 16 razy większą rozdzielczością niż typowe 8-bitowe oscyloskopy.
Oprogramowanie PicoScope umożliwia wybór pomiędzy ręcznym ustawieniem rozdzielczości a pozostawieniem oscyloskopu w trybie automatycznej rozdzielczości, w którym dla wybranych ustawień używana jest optymalna rozdzielczość.
Specyfikacja techniczna
Model | PicoScope | ||||
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Bandwidth (–3 dB) | 300 MHz | 500 MHz | 750 MHz | 1 GHz | 3 GHz |
4- channel 8-bit | 6403E | 6404E | 6405E | 6406E | |
4-channel FlexRes | 6424E | 6425E | 6426E | 6428E-D | |
8-channel 8-bit | 6804E | ||||
8-channel FlexRes | 6824E |
Vertical (analog channels) | |||||
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Bandwidth (–3 dB) | 300 MHz | 500 MHz | 50 Ω ranges: 750 MHz 1 MΩ ranges: 500 MHz |
50 Ω ranges: 1 GHz 1 MΩ ranges: 500 MHz |
50 Ω range: 3 GHz[1] |
Rise time | < 1.3 ns | < 850 ps | 50 Ω ranges: < 475 ps 1 MΩ ranges: < 850 ps |
50 Ω ranges: < 350 ps 1 MΩ ranges: < 850 ps |
50 Ω range: 150 ps[1] |
[1] ±500 mV range, 2.5 GHz/180 ps due to 3600 V/μs maximum slew rate | |||||
Bandwidth limiter | 20 MHz. Software-switchable. | 20 MHz or 200 MHz. Software-switchable. | N/A | ||
Vertical resolution | FlexRes models: 8, 10 or 12 bits Other models: 8 bits |
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LSB size (quantization step size) |
8-bit mode: < 0.4% of input range
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Enhanced vertical resolution | Up to 4 extra bits beyond ADC resolution | ||||
Input connector | BNC(f). x10 readout-pin compatible. Intelligent Probe Interface on all channels (4-channel models) or on channels C to F (8-channel models). | ||||
Input ranges (50 Ω ranges) |
±10 mV to ±5 V as above | ±50 mV ±100 mV ±200 mV ±500 mV |
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Input ranges (1 MΩ ranges) |
±10 mV, ±20 mV, ±50 mV, ±100 mV, ±200 mV, ±500 mV, ±1 V, ±2 V, ±5 V, ±10 V, ±20 V | N/A | |||
Input sensitivity (50 Ω ranges) |
2 mV/div to 1 V/div (10 vertical divisions) | 10 mV/div to 100 mV/ div (10 vertical divisions) |
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Input sensitivity (1 MΩ ranges) |
2 mV/div to 4 V/div (10 vertical divisions) | N/A | |||
Input coupling (50 Ω ranges) |
DC |
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Input coupling (1 MΩ ranges) |
AC / DC | N/A | |||
Input characteristics | 50 Ω ±2% | 50 Ω ±3% | 50 Ω ±1% | ||
1 MΩ ±0.5% ∥ 12 pF ±1 pF | N/A | ||||
DC gain accuracy (8-bit models) | ±(1.5% of signal + 1 LSB) | N/A | |||
DC gain accuracy (FlexRes models) | N/A | ±(0.5% of signal + 1 LSB) | ±(1% of signal + 1 LSB) | ±(2% of signal + 1 LSB) | |
DC offset accuracy | ±(1% of full scale + 250 μV) | ±(2% of full scale + 500 μV) |
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Can be improved by using the “zero offset” function in PicoScope. | |||||
Analog offset range 50 Ω (vertical position adjustment) |
±1.25 V (±10 mV to ±1 V ranges) ±20 V (±2 V to ±20 V ranges) |
±125 mV (±10 mV to ±100 mV ranges) ±1.25 V (±200 mV to ±1 V ranges) ±5 V (±2 V and ±5 V ranges) |
±400 mV (±50 mV to ±500 mV ranges) |
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Analog offset range 1 MΩ (vertical position adjustment) |
±1.25 V (±10 mV to ±1 V ranges) ±20 V (±2 V to ±20 V ranges) |
N/A |
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Analog offset control accuracy | ±0.5% of offset setting, additional to basic DC offset accuracy | ||||
Overvoltage protection |
50 Ω ranges: 5.5 V RMS max, ± 10V pk max |
3 V RMS max, ±6 V pk max |
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1 MΩ ranges: ±100 V (DC + AC peak) up to 10 kHz | N/A |
Vertical (digital channels, with optional TA369 8-channel MSO pods) | |||||
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Input channels | 16 channels (2 ports of 8 channels each) | ||||
Maximum detectable input frequency | 500 MHz (1 Gb/s) | ||||
Minimum detectable pulse width | 1 ns | ||||
Input connector (probe tip) | Staggered signal and ground sockets for each channel, to accept 0.64 – 0.89 mm round or 0.64 mm square pin, 2.54 mm pitch | ||||
Input characteristics | 101 kΩ ±1% ∥ 3.5 pF ±0.5 pF | ||||
Maximum input voltage at probe tip | ±40 V up to 10 MHz, derated linearly to ±5 V at 500 MHz | ||||
Threshold range and resolution | ±8 V in approx. 5 mV steps | ||||
Threshold grouping | PicoScope software: Two independent threshold controls, one per 8-channel port PicoSDK: Individual threshold for each channel |
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Threshold selection | TTL, CMOS, ECL, PECL, user-defined | ||||
Threshold accuracy | ±(100 mV + 3% of threshold setting) | ||||
Minimum input voltage swing (at maximum frequency) | 400 mV peak to peak | ||||
Hysteresis (at DC) | PicoScope software: Fixed hysteresis approx. 100 mV PicoSDK: selectable per port; approx. 50 mV, 100 mV, 200 mV or 400 mV |
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Minimum input slew rate | No minimum slew rate requirement |
Horizontal | ||||||
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Maximum sampling rate (real-time, 8-bit) | ||||||
1 analog channel | 5 GS/s | 10 GS/s | ||||
1-2 MSO pods, no analog channels | 5 GS/s | |||||
1 analog channel plus 1 MSO pod | 5 GS/s | |||||
Up to 2 channels, 0 or 1 analog | 5 GS/s | 4-ch models: 5 GS/s[2] 8-ch models: 5 GS/s[4] |
5 GS/s[2] | |||
Up to 4 channels, 2 analog | 2.5 GS/s[2] | 4-ch models: 2.5 GS/s 8-ch models: 2.5 GS/s[3] |
2.5 GS/s | |||
Up to 4 channels, 3 or 4 analog | 1.25 GS/s | 4-ch models: 2.5 GS/s 8-ch models: 2.5 GS/s[3] |
2.5 GS/s | |||
Up to 8 channels | 1.25 GS/s | |||||
More than 8 channels | N/A | 625 MS/s | N/A | |||
Maximum sampling rate (real time, 10-bit, FlexRes models only) | ||||||
1 channel | N/A | 5 GS/s | ||||
Up to 2 channels | 6824E: 2.5 GS/s[3] 6424E: 2.5 GS/s |
2.5 GS/s | ||||
Up to 4 channels | 1.25 GS/s | |||||
Up to 8 channels | 625 MS/s | |||||
More than 8 channels | 6424E: N/A 6824E: 312.5 MS/s |
N/A | ||||
Maximum sampling rate (real time, 12-bit, up to 2 channels, FlexRes models only) | ||||||
1 to 2 analog channels plus 0 to 2 digital ports | N/A | 6824E: 1.25 GS/s[4] 6424E: 1.25 GS/s[2] |
1.25 GS/s[2] | |||
Max. sampling rate, USB 3.0 streaming mode (split between active channels, PC dependent) | ||||||
PicoScope software | ~20 MS/s | |||||
PicoSDK | ~312 MS/s | ~312 MS/s (8-bit mode) ~156 MS/s (10/12-bit modes, FlexRes models) |
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Max. sampling rate to on-device buffer (continuous USB streaming of raw or downsampled data, split between enabled channels) | ||||||
PicoSDK only | 1.25 GS/s | 1.25 GS/s (8-bit mode) 625 MS/s (10/12-bit modes, FlexRes models) |
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Capture memory (shared between active channels) | ||||||
8-bit models | 1 GS | 2 GS | ||||
FlexRes models, 8-bit mode | N/A | 4 GS | ||||
FlexRes models, 10- and 12-bit modes | 2 GS | |||||
Maximum single capture duration at maximum sampling rate | ||||||
PicoScope software | 200 ms | |||||
8-bit models, PicoSDK | 200 ms | 400 ms | ||||
8-bit, PicoSDK, FlexRes models | N/A | 800 ms | ||||
10-bit, PicoSDK, FlexRes models | N/A | 400 ms | ||||
12-bit, PicoSDK, FlexRes models | 1600 ms | |||||
Capture memory (continuous streaming) | 100 MS in PicoScope software. Buffering using full device memory when using PicoSDK, no limit on total duration of capture. | |||||
Waveform buffer (number of segments, PicoScope software) | 10 000 | |||||
Waveform buffer (number of segments, PicoSDK) | 1 000 000 | 2 000 000 | ||||
Timebase ranges | 1 ns/div to 5000 s/div | |||||
Initial timebase accuracy | ±2 ppm | |||||
Timebase drift | ±1 ppm/year | |||||
ADC sampling | Simultaneous sampling on all enabled analog and digital channels |
[2] No more than one channel from each of AB and CD.
[3] No more than one channel from each of AB, CD, EF and GH.
[4] No more than one channel from each of ABCD and EFGH.
External reference clock | |||||
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Input characteristics | Hi-Z, AC coupled (> 1 kΩ at 10 MHz) | ||||
Input frequency range | 10 MHz ±50 ppm | ||||
Input connector | Rear-panel BNC(f), dedicated | ||||
Input level | 200 mV to 3.3 V peak to peak | ||||
Overvoltage protection | ±5 V peak max | ||||
The external reference clock synchronizes both the scope and the AWG. |
Dynamic performance (typical; analog channels) | |||||
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300 MHz | 500 MHz | 750 MHz | 1 GHz | 3 GHz | |
Crosstalk | 1200:1 (±10 mV to ±1 V ranges) 300:1 (±2 V to ±20 V ranges) |
2500:1 (±10 mV to ±1 V ranges) 600:1 (±2 V to ±20 V ranges) |
1000:1 up to 500 MHz 200:1 up to 3 GHz |
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from DC to bandwidth of victim channel, equal voltage ranges | |||||
Harmonic distortion, 8-bit mode | –50 dB at 1 MHz full scale | ||||
Harmonic distortion, 10/12-bit mode, FlexRes models | –60 dB at 1 MHz full scale, typical | –60 dB | |||
SFDR, 8-bit models | > 50 dB on ±50 mV to ±20 V ranges | N/A | |||
SFDR, FlexRes models | > 60 dB on ±50 mV to ±20 V ranges | > 60 dB on ±50 mV to ±500 mV ranges |
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Noise, 8-bit models | < 200 μV RMS on most sensitive range | N/A | |||
Noise, FlexRes models | < 150 μV RMS on most sensitive range | < 700 μV rms, ±50 mV range |
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Linearity, 8-bit mode | < 2 LSB | ||||
Linearity, 10-bit mode | N/A | < 4 LSB (FlexRes models) | < 4 LSB | ||
Bandwidth flatness | (+0.3 dB, –3 dB) from DC to full bandwidth | (+1 dB, −3 dB) from DC to full bandwidth |
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Low frequency flatness | < ±3% (or ±0.3 dB) from DC to 1 MHz |
Triggering (main specifications) | |||||
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Source | Any analog channel, AUX trigger, plus digital ports with optional TA369 MSO pods | ||||
Trigger modes | None, auto, repeat, single, rapid (segmented memory) | ||||
Advanced trigger types (analog channels) | Edge (rising, falling, rising-or-falling), window (entering, exiting, entering-or-exiting), pulse width (positive or negative or either pulse), window pulse width (time inside, outside window or either), level dropout (including high/low or either), window dropout (including inside, outside or either), interval, runt (positive or negative), transition time (rise/fall), logic Logic trigger capabilities: AND or OR function of any number of trigger sources (analog channels, MSO ports and aux input) NAND/NOR/XOR/XNOR of up to four trigger sources plus aux input User-defined Boolean function of up to four trigger sources plus aux input (PicoSDK only) |
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Trigger sensitivity (analog channels) | Digital triggering provides 1 LSB accuracy up to full bandwidth of scope with adjustable hysteresis | ||||
Advanced trigger types (digital channels, with optional MSO pods) | Edge, pulse width, dropout, interval, pattern, logic (mixed signal) | ||||
Pre-trigger capture | Up to 100% of capture size | ||||
Post-trigger delay | PicoScope software: 0 to > 4 x 109 samples, settable in 1 sample steps (delay range at fastest sample rate of 0.8 s in 200 ps steps) PicoSDK: 0 to > 1012 samples, settable in 1 sample steps (delay range at fastest sample rate of > 200 s in 200 ps steps) |
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Rapid trigger mode rearm time | 700 ns max, 300 ns typical (single channel, 5 GS/s) | ||||
Maximum trigger rate | PicoScope software: 40 000 waveforms in 12 ms; PicoSDK: Number of waveforms up to memory segment count, at a rate of 6 million waveforms per second. | ||||
Trigger time-stamping | Each waveform is timestamped in sample intervals (PicoSDK) or time (PicoScope software) from previous waveform. The time resets when any settings are changed. |
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Auxiliary trigger input | |||||
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Connector type | Rear-panel BNC(f) | ||||
Trigger types (triggering scope) | Edge, pulse width, dropout, interval, logic | ||||
TRigger types (triggering AWG) | Rising edge, falling edge, gate high, gate low | ||||
Input bandwidth | > 10 MHz | ||||
Input characteristics | 2.5 V CMOS Hi-Z input, DC coupled | ||||
Threshold | Fixed threshold, 1.25 V nominal to suit 2.5 V CMOS | ||||
Hysteresis | 1 V max (VIH < 1.75V, VIL > 0.75V) | ||||
Overvoltage protection | ±20 V peak max |
Function generator | |||||
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Standard output signals | Sine, square, triangle, DC voltage, ramp up, ramp down, sinc, Gaussian, half-sine | ||||
Output frequency range | Sine/square waves: 100 μHz to 50 MHz Other waves: 100 μHz to 10 MHz |
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Output frequency accuracy | Oscilloscope timebase accuracy ± output frequency resolution | ||||
Output frequency resolution | 0.002 ppm | ||||
Sweep modes | Up, down, dual with selectable start/stop frequencies and increments | ||||
Sweep frequency range | Sine/square waves: 0.075 Hz to 50 MHz Other waves: 0.075 Hz to 10 MHz Swept frequencies down to 100 μHz are possible using PicoSDK with some restrictions |
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Sweep frequency resolution |
PicoScope 7: 0.075 Hz PicoSDK: Sweep frequency resolution down to 100 μHz is possible with some restrictions |
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Triggering | Free-run, or from 1 to 1 billion counted waveform cycles or frequency sweeps. Triggered from scope trigger, aux trigger or manually. | ||||
Gating | Waveform output can be gated (paused) via aux trigger input or software | ||||
Pseudorandom output signals | White noise, selectable amplitude and offset within output voltage range Pseudorandom binary sequence (PRBS), selectable high and low levels within output voltage range, selectable bit rate up to 50 Mb/s |
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Output voltage range | ±5 V into open circuit; ±2.5 V into 50 Ω | ||||
Output voltage adjustment | Signal amplitude and offset adjustable in < 1 mV steps within overall range | ||||
DC accuracy | ±(0.5% of output voltage + 20 mV) | ||||
Amplitude flatness | Sine wave into 50 Ω: < 2.0 dB to 50 MHz Square: < 0.5 dB to 50 MHz Other waveforms: < 1.0 dB to 1 MHz, < 2.0 dB to 10 MHz (except sinc) |
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SFDR | 70 dB (10 kHz 1 V peak to peak sine into 50 Ω) | ||||
Output noise | < 700 μV RMS (DC output, filter enabled, into 50 Ω) | ||||
Output resistance | 50 Ω ±3% | ||||
Connector type | Rear-panel BNC | ||||
Overvoltage protection | ±20 V peak max | ||||
Arbitrary waveform generator | |||||
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Update rate | Variable from < 1 S/s to 200 MS/s with < 0.002 ppm resolution | ||||
Buffer size | 40 kS | ||||
Vertical resolution | 14 bits (output step size < 1 mV) | ||||
Analog filters | 50 MHz selectable filter (5-pole, 30 dB/octave) | ||||
Bandwidth (−3 dB) | No filter: 100 MHz Filtered: 50 MHz |
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Rise time (10% to 90%) | No filter: 3.5 ns Filtered: 6 ns |
Sweep modes, triggering, frequency accuracy and resolution, voltage range and accuracy and output characteristics as for function generator.
Probe support | |||||
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Intelligent probe interface | Intelligent probe interface on four channels supporting A3000 Series active probes. Probe interface supplies power and controls the probe. | ||||
Probe detection | Automatic detection of Pico P2036, P2056 x10 passive oscilloscope probes, and A3000 Series active probes. | ||||
Probe compensation pin | 1 kHz, 2 V peak to peak square wave, 600 Ω | ||||
Probe compensation pin rise time | < 50 ns |
Spectrum analyzer | |||||
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Frequency range | DC to oscilloscope's rated bandwidth | ||||
Display modes | Magnitude, average, peak hold | ||||
Y axis | Logarithmic (dbV, dBu, dBm, arbitrary dB) or linear (volts) | ||||
X axis | Linear or logarithmic | ||||
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 | |||||
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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, delay, average, frequency, derivative, integral, min, max, peak, duty, highpass, lowpass, bandpass, bandstop, coupler, top, base, amplitude, positive overshoot, negative overshoot |
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Operands | A to H (input channels), T (time), reference waveforms, pi, 1D0 to 2D7 (digital channels), constants |
Automatic measurements | |||||
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Scope mode | AC RMS, cycle time, DC average, duty cycle, edge count, fall time, falling edge count, falling rate, frequency, high pulse width, low pulse width, maximum, minimum, negative duty cycle, peak to peak, rise time, rising edge count, rising rate, true RMS, top, base, amplitude, positive overshoot, negative overshoot, phase |
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Spectrum mode | Frequency at peak, amplitude at peak, average amplitude at peak, total power, THD%, THD dB, THD+N, SINAD, SNR, IMD | ||||
Statistics | Minimum, maximum, average, standard deviation |
DeepMeasure™ | |||||
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Parameters | Cycle number, cycle time, frequency, low pulse width, high pulse width, duty cycle (high), duty cycle (low), rise time, fall time, undershoot, overshoot, max. voltage, min. voltage, voltage peak to peak, start time, end time |
Serial decoding | |||||
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Protocols | 1-Wire, ARINC 429, BroadRReach, CAN, CAN FD, CAN J1939, CAN XL, DALI, DCC, DMX512, Ethernet 10BASE-T, Extended UART, Fast Ethernet 100BASE-TX, FlexRay, I2C, I2S, I3C BASIC v1.0, LIN, Manchester, MIL-STD-1553, MODBUS ASCII, MODBUS RTU, NMEA-0183, Parallel Bus, PMBus, PS/2, PSI5 (Sensor), Quadrature, RS232/UART, SBS Data, SENT Fast, SENT Slow, SENT SPC, SMBus, SPI-MISO/MOSI, SPI-SDIO, USB (1.0/1.1), Wind Sensor |
Mask limit testing | |||||
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Statistics | Pass/fail, failure count, total count | ||||
Mask creation | Auto-generated from waveform or imported from file |
Display | |||||
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Display modes | Scope, XY scope, persistence, spectrum | ||||
Interpolation | Linear or sin(x)/x | ||||
Persistence modes | Time, frequency, fast | ||||
Output functions | Copy to clipboard, print | ||||
Output file formats | csv, mat, pdf, png, psdata, pssettings, txt |
Software | |||||
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Windows software (64-bit)>[5] |
PicoScope 7, PicoLog 6, PicoSDK (Users writing their own apps can find example programs for all platforms on the Pico Technology organization page on GitHub). PicoScope 6 may be available for older operating systems supporting products purchased up to 2022.
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macOS software (64-bit)>[5] | PicoScope 7, PicoLog 6 and PicoSDK | ||||
Linux software (64-bit)>[5] |
PicoScope 7 software and drivers, PicoLog 6 (including drivers) |
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Raspberry Pi 4B (Raspberry Pi OS)[5] |
PicoLog 6 (including drivers) See Linux Software and Drivers to install drivers only |
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Languages supported, PicoScope software | English-US, English-UK, Bulgarian, Czech, Danish, German, Greek, Spanish, French, Korean, Croatian, Italian, Hungarian, Netherlands Dutch, Japanese, Norwegian, Polish, Portuguese- Brazil, Portuguese, Romanian, Russian, Slovene, Serbian, Finnish, Swedish, Turkish, Simplified Chinese, Traditional Chinese |
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Languages supported, PicoLog | Simplified Chinese, Dutch, English (UK), English (US), French, German, Italian, Japanese, Korean, Russian, Spanish | ||||
PC requirements | Processor, memory and disk space: as required by the operating system Ports: USB 3.0 (recommended) or 2.0 (compatible) |
General | |||||
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Package contents |
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PC connectivity | USB 3.0 SuperSpeed (USB 2.0 compatible) | ||||
USB connector | Type B | ||||
Power requirements | 12 V DC from supplied PSU. Up to 5 A (scope only) or 7 A including scope-powered accessories | ||||
Ground terminal | Functional ground terminal accepting wire or 4 mm plug, rear-panel | ||||
Thermal management | Automatic fan speed control for low noise | ||||
Dimensions | 245 x 192 x 61.5 mm | ||||
Weight | 2.2 kg (scope only) 5.6 kg (in carry case with PSU and cables) |
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Ambient temperature range | Operating: 0 to 40 °C 15 to 30 °C after 20-minute warm-up Storage: –20 to +60 °C |
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Humidity range | Operating: 5 to 80 %RH non-condensing Storage: 5 to 95 %RH non-condensing |
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Altitude range | Up to 2000 m | ||||
Pollution degree | EN 61010 pollution degree 2: “only nonconductive pollution occurs except that occasionally a temporary conductivity caused by condensation is expected” | ||||
Safety compliance | Designed to EN 61010-1:2010 + A1:2019 | ||||
EMC compliance | Tested to EN61326-1:2013 and FCC Part 15 Subpart B | ||||
Environmental compliance | RoHS, REACH, WEEE | ||||
Warranty | 5 years |
Dane techniczne
Pasmo analogowe | 1 GHz |
Liczba kanałów analogowych | 4 |
Liczba kanałów cyfrowych MSO | 8 - opcja dodatkowo płatna |
Rozdzielczość pionowa | 8 bitów |
Częstotliwość próbkowania | 5 GS/s |
Wielkość bufora | 2 GS |
Wersja USB | 3.0 |
Dodatkowe | Generator arbitralny (AWG) |
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