PicoScope 6000E Series
Ultra-deep-memory, high-performance oscilloscopes and MSOs
PicoScope 6000E Series ultra-deep-memory oscilloscopes
A smarter scope for faster debug
The PicoScope 6000E Series fixed-resolution and FlexRes mixed-signal oscilloscopes provide 8 to 12 bits of vertical resolution, with up to 1 GHz bandwidth and 5 GS/s sampling rate.
Models with four or eight analog channels have the timing and amplitude resolution you need to reveal critical signal integrity issues such as timing errors, glitches, dropouts, crosstalk and metastability issues.
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Typical applications
These oscilloscopes, with PicoScope 6 application software, are ideal for design engineers working with high-performance embedded systems, signal processing, power electronics, mechatronics and automotive designs, and for researchers and scientists working on multichannel high-performance experiments in physics labs, particle accelerators and similar facilities.
The PicoScope 6000E Application Programming Interface (API) provides programming access to the full set of advanced hardware features and can be used to develop diverse custom and OEM applications.
Best-in-class bandwidth, sampling rate and memory depth
Capture time at maximum sampling rate: 200 ms at 5 GS/s
With up to 1 GHz analog bandwidth complemented by a real-time sampling rate of 5 GS/s, the PicoScope 6000E Series scopes can display single-shot pulses with 200 ps time resolution.
The PicoScope 6000E Series gives you the deepest capture memory available as standard on any oscilloscope at any price – up to 4 GS in total.
This ultra-deep memory allows the oscilloscope to capture 200 ms waveforms at its maximum sampling rate of 5 GS/s.
When using PicoSDK, by allocating the scope’s whole memory to a single waveform the maximum 5 GS/s sampling rate can be sustained for even longer captures up to an incredible 800 ms.
The SuperSpeed USB 3.0 interface and hardware acceleration ensure that the display is smooth and responsive even with long captures.
The PicoScope 6000E Series gives you the waveform memory, resolution and analysis tools that you need to perform stringent testing of today’s high‑performance embedded computers and next-generation embedded system designs.
Power, portability, and performance
Traditional benchtop mixed-signal oscilloscopes take up a lot of bench space, and models with eight analog channels are prohibitively expensive for many engineers working on next-generation designs. PicoScope 6000E Series oscilloscopes are small and portable while offering the high-performance specifications required by engineers in the lab or on the move, and deliver lowest cost of ownership for this class of instrument.
The PicoScope 6000E Series offers up to 8 analog channels, plus an optional 8 or 16 digital channels with the plug-in 8-channel TA369 MSO (mixed-signal oscilloscope) pods. The flexible high‑resolution display options enable you to view and analyze each signal in detail.
Supported by PicoScope 6 software, these devices offer an ideal, cost-effective package for many applications, including design, research, test, education, service, and repair. PicoScope 6 is included in the price of your scope, available for free download, with free updates, and can be installed on as many PCs as you want, allowing you to view/analyze data off-line without the scope.
High-end features as standard
Buying a PicoScope is not like making a purchase from other oscilloscope companies, where optional extras considerably increase the price. With our scopes, high-end features such as serial decoding, mask limit testing, advanced math channels, segmented memory, hardware‑based time-stamping and a signal generator are all included in the price.
To protect your investment, both the PC software and firmware inside the scope can be updated. Pico Technology has a long history of providing new features for free through software downloads. We deliver on our promises of future enhancements year after year. Users of our products reward us by becoming lifelong customers and frequently recommending us to their colleagues.
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.
The screenshot above shows changing frequency versus time as a graph. 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 online A to Z of PC Oscilloscopes.
| Model | PicoScope | |||
|---|---|---|---|---|
| Bandwidth (–3 dB) | 300 MHz | 500 MHz | 750 MHz | 1 GHz |
| 4- channel 8-bit | 6403E | 6404E | 6405E | 6406E |
| 4-channel FlexRes | 6424E | 6425E | 6426E | |
| 8-channel 8-bit | 6804E | |||
| 8-channel FlexRes | 6824E | |||
| Vertical (analog channels) | ||||
|---|---|---|---|---|
| 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 |
| 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 |
| Bandwidth limiter | 20 MHz. Software-switchable. | 20 MHz or 200 MHz. Software-switchable. | ||
| Vertical resolution[2] | FlexRes models: 8, 10 or 12 bits Other models: 8 bits |
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| LSB size[2] (quantization step size) | 8-bit mode: < 0.4% of input range 10-bit mode (FlexRes models): < 0.1% of input range 12-bit mode (FlexRes models): < 0.025% of input range |
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| Enhanced vertical resolution | Hardware resolution + up to 4 bits | |||
| 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 | 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 50 Ω ranges: ±10 mV to ±5 V as above |
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| Input sensitivity | 1 MΩ ranges: 2 mV/div to 4 V/div (10 vertical divisions) 50 Ω ranges: 2 mV/div to 1 V/div (10 vertical divisions) |
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| Input coupling | 1 MΩ ranges: AC / DC 50 Ω ranges: DC |
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| Input characteristics | 1 MΩ ±0.5% ∥ 12 pF ±1 pF | |||
| 50 Ω ±2% | 50 Ω ±3% | |||
| DC gain accuracy (8-bit models) | ±(1.5% of signal + 1 LSB) | ±(1.5% of signal + 1 LSB) | ±(1.5% of signal + 1 LSB) | |
| DC gain accuracy (FlexRes models) | N/A | ±(0.5% of signal + 1 LSB) | ±(1% of signal + 1 LSB) | |
| DC offset accuracy | ±(1% of full scale + 250 μV). Can be improved by using the “zero offset” function in PicoScope 6. |
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| Analog offset range (vertical position adjust) | 50 Ω ranges: ±1.25 V (±10 mV to ±1 V ranges) ±20 V (±2 V to ±20 V ranges) |
50 Ω 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) |
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| 1 MΩ ranges: ±1.25 V (±10 mV to ±1 V ranges) ±20 V (±2 V to ±20 V ranges) |
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| Analog offset control accuracy | ±0.5% of offset setting, additional to basic DC offset accuracy | |||
| Overvoltage protection | 1 MΩ ranges: ±100 V (DC + AC peak) up to 10 kHz 50 Ω ranges: 5.5 V RMS max, ± 10V pk max |
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| Vertical (digital channels, with optional TA369 8-channel MSO pods) | ||||
|---|---|---|---|---|
| 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 6: 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 6: 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 | ||||
|---|---|---|---|---|
| Maximum sampling rate (real-time, 8-bit) | ||||
| Up to 2 channels[4], 0 or 1 analog | 5 GS/s | 4-ch models: 5 GS/s[1] 8-ch models: 5 GS/s[3] |
5 GS/s[1] | |
| Up to 4 channels, 2 analog | 2.5 GS/s[1] | 4-ch models: 2.5 GS/s 8-ch models: 2.5 GS/s[2] |
2.5 GS/s | |
| Up to 4 channels, 3 or 4 analog | 1.25 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[2] 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[3] 6424E: 1.25 GS/s[1] |
1.25 GS/s[1] | |
| [1] No more than one channel from each of AB and CD. [2] No more than one channel from each of AB, CD, EF and GH. [3] No more than one channel from each of ABCD and EFGH. [4] In this section a channel counts as either an analog input or an 8-bit MSO port. |
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| Max. sampling rate, USB 3.0 streaming mode (split between active channels, PC dependent) | ||||
| PicoScope 6 | ~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 6 | 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 6) | 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 | |||
| External reference clock | ||||||
|---|---|---|---|---|---|---|
| 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 | |||||
| Dynamic performance (typical; analog channels) | ||||
|---|---|---|---|---|
| 300 MHz | 500 MHz | 750 MHz | 1 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) |
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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 | |||
| SFDR, 8-bit models | > 50 dB on ±50 mV to ±20 V ranges | |||
| SFDR, FlexRes models | > 60 dB on ±50 mV to ±20 V ranges | |||
| Noise, 8-bit models | < 200 μV RMS on most sensitive range | |||
| Noise, FlexRes models | < 150 μV RMS on most sensitive range | |||
| Bandwidth flatness | (+0.3 dB, –3 dB) from DC to full bandwidth | |||
| Low frequency flatness | < ±3% (or ±0.3 dB) from DC to 1 MHz | |||
| Triggering (main specifications) | ||||||
|---|---|---|---|---|---|---|
| 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, window, pulse width, window pulse width, level dropout, window dropout, interval, runt, logic. Logic allows arbitrary combinations of up to 4 analog channels or MSO ports. |
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| Trigger sensitivity (analog channels) | Digital triggering provides 1 LSB accuracy up to full bandwidth of scope. | |||||
| Trigger types (digital inputs) | With optional MSO pods: Edge, pulse width, dropout, interval, logic, pattern, mixed signal | |||||
| Pre-trigger capture | Up to 100% of capture size | |||||
| Post-trigger delay and other time intervals | PicoScope 6: 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 6: 10 000 waveforms in 3 ms; PicoSDK: 6 million waveforms per second | |||||
| Trigger time-stamping | Each waveform is timestamped in sample intervals (PicoSDK) or time (PicoScope 6) from previous waveform. The time resets when any settings are changed. |
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| Auxiliary trigger input | ||||||
|---|---|---|---|---|---|---|
| Connector type | Rear-panel BNC(f) | |||||
| Trigger types (triggering scope) | Edge, pulse width, dropout, interval, logic | |||||
| Input characteristics | 2.5 V CMOS high-impedance input, DC coupled | |||||
| Bandwidth | > 10 MHz | |||||
| Threshold range | 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 | ||||||
|---|---|---|---|---|---|---|
| Standard output signals | Sine, square, triangle, DC voltage, ramp up, ramp down, sinc, Gaussian, half-sine | |||||
| 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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| Standard signal frequency | Sine (filtered): 100 μHz to 50 MHz; Square (full bandwidth): 100 μHz to 50 MHz; Other waves: 100 μHz to 1 MHz | |||||
| 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 1 MHz Swept frequencies down to 100 μHz possible in PicoSDK with some restrictions |
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| Sweep frequency resolution | In PicoScope 6 software: 0.075 Hz Sweep frequency resolution down to 100 μHz possible in PicoSDK 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 or manually. | |||||
| Gating | Software controlled gating of waveform output | |||||
| Output frequency accuracy | Oscilloscope timebase accuracy ± output frequency resolution | |||||
| Output frequency resolution | 0.002 ppm | |||||
| 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 | |||||
| Amplitude flatness | < 2.0 dB to 50 MHz (sine wave into 50 Ω) < 0.5 dB to 50 MHz (square) < 1.0 dB to 1 MHz (other waveforms) |
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| Analog filters | 50 MHz selectable filter (5-pole, 30 dB/octave) | |||||
| DC accuracy | ±(0.5% of output voltage + 20 mV) | |||||
| 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(f) | |||||
| Overvoltage protection | ±20 V peak max | |||||
| Arbitrary waveform generator | ||||||
|---|---|---|---|---|---|---|
| Update rate | Variable from < 1 S/s to 200 MS/s with < 0.002 ppm resolution | |||||
| Buffer size | 40 kS | |||||
| Resolution | 14 bits (output step size < 1 mV) | |||||
| 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 |
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Additional AWG specifications including sweep modes, triggering, frequency accuracy and resolution, voltage range, DC accuracy and output characteristics are as the function generator
| Probe support | ||||
|---|---|---|---|---|
| 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 | ||||||
|---|---|---|---|---|---|---|
| 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 | ||||||
|---|---|---|---|---|---|---|
| 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 | |||||
| Operands | A, B, C, D (input channels), T (time), reference waveforms, pi, 1D0−2D7 (digital channels), constants | |||||
| Automatic measurements | ||||||
|---|---|---|---|---|---|---|
| Scope mode | AC RMS, true RMS, frequency, cycle time, duty cycle, DC average, falling rate, rising rate, low pulse width, high pulse width, fall time, rise time, minimum, maximum, peak to peak | |||||
| 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 | |||||
| DeepMeasure™ | ||||||
|---|---|---|---|---|---|---|
| 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 | ||||||
|---|---|---|---|---|---|---|
| Protocols | 1-W1ire, ARINC 429, BroadR-Reach, CAN, CAN FD, DALI, DCC, DMX512, Ethernet 10Base-T and 100Base-TX, FlexRay, I²C, I²S, LIN, Manchester, MODBUS, PS/2, MODBUS, SENT, SPI, UART (RS-232), USB 1.1 | |||||
| Mask limit testing | ||||
|---|---|---|---|---|
| Statistics | Pass/fail, failure count, total count | |||
| Mask creation | User-drawn, table entry, auto-generated from waveform or imported from file | |||
| Display | ||||
|---|---|---|---|---|
| Interpolation | Linear or sin(x)/x | |||
| Persistence modes | Digital color, analog intensity, custom, fast | |||
| Output functions | Copy to clipboard, print | |||
| Output file formats | BMP, CSV, GIF (static and animated), JPG, MAT, PDF, PNG, PSDATA, PSSETTINGS, TXT | |||
| Software | ||||
|---|---|---|---|---|
| Windows software | PicoScope for Windows PicoSDK Software development kit (SDK) Windows 7, 8 or 10 recommended (read more) |
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| macOS software | PicoScope for macOS (beta: feature list) PicoSDK Software development kit (SDK) OS versions: see release notes |
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| Linux software | PicoScope for Linux (beta – see feature list) PicoSDK Software development kit (SDK) Linux Software & Drivers for details of supported distributions |
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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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| [5] See www.picotech.com/downloads for more information. | ||||
| Languages supported, PicoScope 6 | Chinese (simplified), Chinese (traditional), Czech, Danish, Dutch, English, Finnish, French, German, Greek, Hungarian, Italian, Japanese, Korean, Norwegian, Polish, Portuguese, Romanian, Russian, Spanish, Swedish, Turkish | |||
| Languages supported, PicoLog 6 | 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) |
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| General | ||||
|---|---|---|---|---|
| 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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| Temperature range | Operating: 0 to 40 °C 15 to 30 °C for quoted accuracy after 1 hour 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 | |||
| 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 | |||