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Osciloscópio de alta frequência Pico série 9000

Osciloscópio de alta frequência Pico série 9000 recomendado para analise de camadas físicas de sinais de alta frequência tipicos em aplicações de telecomunicações.

9200-scope-eye

Osciloscópio de alta frequência Pico série 9000

Osciloscópio de alta frequência PicoScope da série 9200

Osciloscópio alta frequência USB de 12 GHz  da série 9200 são osciloscópios de amostragem digital para aplicações de telecomunicações de 6 Gb / s ou superior, aplicações de aplicações de microndas de 12 GHz e de sincronização com uma resolução até 200 fs. As opções de modelo pode incluir relógio de recuperação de até 2,7 Gb / s, a 8 GHz com conversores ópticos para elétricos ou um tempo de reflectometria com fonte pulsada de tempo de transição 120 ps. Um poderoso instrumento em pequenas dimensões e extremamente solução de medição de microndas de baixo custo.

sampling-oscilloscope-software

 

Osciloscópio de alta frequência Pico 9200 especificações

Osciloscópio de alta frequência Pico 9200 Channels (vertical)
Channels 2 (simultaneous acquisition)
Bandwidth
Full
Narrow
DC to 12 GHz
DC to 8 GHz
Rise time (calculated)
Full bandwidth
Narrow bandwidth
10% to 90%, tR = 0.35/BW
29.2 ps
43.7 ps
Input connectors SMA (F)
ADC resolution 16 bits
Scale factors (sensitivity) 2 mV/div to 500 mV/div.
1-2-5 sequence and 0.5% fine increments
Nominal input impedance (50 ±1) Ω
Optical–electrical (O/E) converter (PicoScope 9221A and 9231A)
Unfiltered bandwidth DC to 8 GHz typical.
DC to 7 GHz guaranteed at full electrical bandwidth
Effective wavelength range 750 nm to 1650 nm
Calibrated wavelengths 850 nm (MM), 1310 nm (MM/SM), 1550 nm (SM)
Transition time 10% to 90% calculated from tR = 0.48 / BW: 60 ps max.
RMS noise, maximum 4 µW (1310 and 1550 nm), 6 µW (850 nm)
Scale factors (sensitivity) 1 µV/div to 400 µV/div (full scale is 8 divisions)
DC accuracy, typical ±25 µW ±10% of vertical scale
Maximum input peak power +7 dBm (1310 nm)
Fiber input Single-mode (SM) or multi-mode (MM)
Fiber input connector FC/PC
Input return loss
SM
MM
−24 dB, typical
−16 dB, typical; −14 dB, maximum
Osciloscópio de alta frequência Pico série 9000 Pico 9200 Timebase (horizontal)
Digitising rate DC to 200 kHz maximum
Timebases 10 ps/div to 50 ms/div (main, intensified, two delayed, or dual delayed)
Time interval resolution 200 fs minimum
Data record length 32 to 4096 points maximum per channel in x2 sequence
Delta time interval accuracy
For horizontal scale > 450 ps/divFor horizontal scale = 450 ps/div
±0.2% of Delta Time Interval ±15 ps at a temperature within ±3 °C of horizontal calibration temperature.
±15 ps or ±5% of Delta Time Interval ±5 ps, whichever is smaller at a temperature within ±3 °C of horizontal calibration temperature.
Acquisition modes Sample (normal), average, envelope
Osciloscópio de alta frequência Pico 9200 Dynamic performance (typical)
RMS noise, maximum
Full bandwidth
Narrow bandwidth
With averaging
2 mV
1.5 mV
100 µV system limit
Osciloscópio de alta frequência Pico 9200 Trigger
Trigger sources External direct trigger, external prescaled trigger, internal clock trigger, clock recovery trigger (not 9201A)
Direct trigger bandwidth and sensitivity
DC to 100 MHz
100 MHz to 1 GHz
100 mV p-p
Increasing linearly from 100 mV p-p to 200 mV p-p
Trigger RMS jitter, maximum 4 ps + 20 ppm of delay setting
Prescaled trigger bandwidth and sensitivity
1 to 7 GHz
7 to 8 GHz
8 to 10 GHz typical
200 MV p-p to 2 V p-p
300 mV p-p to 1 V p-p
400 mV p-p to 1 V p-p
Clock recovery and pattern sync trigger (PicoScope 9211A only)
Clock recovery sensitivity
12.3 Mb/s to 1 Gb/s
1 Gb/s to 2.7 Gb/s
50 mV p-p
100 mV p-p
Continuous rate
Pattern sync trigger 10 Mb/s to 8 Gb/s with pattern length from 7 to 65,535 max.
Recovered clock RMS trigger jitter, maximum 1 ps + 1.0% of unit interval
Maximum safe trigger input voltage ±2 V (DC + peak AC)
Trigger input connector SMA (F)
Signal generator output (PicoScope 9211A and 9231A)
Modes Step, coarse timebase, pulse, NRZ, RZ
Rise/fall times 100 ps (20% to 80%) typical
Osciloscópio de alta frequência Pico 9200 Measurement and analysis
Marker Vertical bars, horizontal bars (measure volts) or waveform markers (× and +)
Automatic measurements Up to 40 automatic pulse measurements
Histogram Vertical or horizontal
Mathematics Up to four math waveforms can be defined and displayed
FFT Up to two fast Fourier transforms can be run simultaneously with the built-in filters (rectangular, Nicolson, Hann, flat-top, Blackman–Harris and Kaiser–Bessel)
Eye diagram Automatically characterizes NRZ and RZ eye patterns. Measurements are based on statistical analysis of the waveform.
Mask test Acquired signals are tested for fit outside areas defined by up to eight polygons. Standard or user-defined masks can be selected.
Osciloscópio de alta frequência Pico 9200 Display
Display resolution Variable
Display style Dots, vectors, variable or infinite persistence, variable or infinite grey scaling, variable or infinite colour grading
Osciloscópio de alta frequência Pico 9200 Environmental
Temperature range (operating) +5 °C to +35 °C
Temperature range (stated accuracy) +15 °C to 25 °C
Temperature range (storage) -20 °C to +50 °C
Humidity range (operating) Up to 85% RH, non-condensing, at +25 °C
Humidity range (storage) Up to 95% RH, non-condensing
Physical properties
Dimensions 170 x 255 x 40 mm (6.7 x 10.0 x 1.6 in)
Weight 1.1 kg (2.3 lb) max.
Software
PicoScope 9000 for Windows PicoScope 9000 software is capable of many advanced features such as mathematical analysis, histogram analysis, eye-diagram analysis and mask testing. All features are included as standard. Updates can be downloaded for free.
Software development kit The SDK allows you to control the scope from your own program. The software can act as an ActiveX COM server, allowing any program to send commands to it using a standard Windows protocol. This is ideal for production and test environments where multiple scopes need to be controlled from a single PC, or where automated tests need to be run. The SDK contains full documentation and example code for various programming languages.
Languages English
General
Additional hardware (supplied) 2 x SMA M-F connector savers (supplied fitted to scope)
Additional SMA M-F connector saver (9221A and 9231A only)
TDR Accessory Kit (PicoScope 9211A and 9231A only)
LAN patch and crossover cables (9211A and 9231A only)
USB 2.0 cable
AC adaptor
Tough carry case
TDR Accessory Kit contents
(supplied with PicoScope 9211A and 9231A only)
30 cm precision cable
80 cm precision cable
0 Ω short
50 Ω terminator
Coupler
Resistive power divider
SMA wrench
Operating system 32-bit edition of Windows XP (SP3), 32 or 64-bit edition of Windows Vista, Windows 7 or Windows 8 (not Windows RT)
PC connection USB 2.0 (USB 1.1 and USB 3.0 compatible)
LAN connection 10/100 Mb/s (PicoScope 9211A and 9231A only)
Power supply
PicoScope 9201A
PicoScope 9211A
PicoScope 9221A
PicoScope 9231A
AC adaptor
+6 V DC ±5%. @ 1.9 A max
+6 V DC ±5%. @ 2.6 A max
+6 V DC ±5%. @ 2.3 A max
+6 V DC ±5%. @ 2.9 A max
Mains adaptor supplied for USA, UK, Europe and Australasia
Compliance FCC (EMC), CE (EMC and LVD)
Total satisfaction guarantee In the event that this product does not fully meet your requirements you can return it for an exchange or refund. To claim, the product must be returned in good condition within 14 days.
Warranty 2 years (1 year for input sampler)

 

Osciloscópio de alta frequência 20 GHz PicoScope da série 9300 com TDR, CDR e opções opticas

Osciloscópios de alta frequência da sério 9300 com banda até 20 GHz por amostragem atendem aplicações digitais e de telecomunicações de 10 Gb / s e superior, aplicações de microondas até 20 GHz e cronometria aplicações com uma resolução de até 64 fs. Opcional 11,3 Gb / s de recuperação de relógio, óptico para conversor elétrico ou diferencial, fontes reflectometria no domínio do tempo de-skewable (40 ps / 200 mV ou 60 ps / 6 V) .

9341-PR-image

Osciloscópio de alta frequência Pico 9300 especificações

 

Osciloscópio de alta frequência Pico série 9300 – vertical (analog)
Channels PicoScope 9341: 4
All other models: 2
Bandwidth
Full
Narrow
DC to 20 GHz
DC to 10 GHz
Rise time (calculated)
Full bandwidth
Narrow bandwidth
10% to 90%, tR = 0.35/BW
17.5 ps
35 ps
Input connectors 2.92 mm (K) female, compatible with SMA and PC3.5
Resolution 16 bits, 40 μV/LSB
Scale factors (sensitivity) 1 mV/div to 500 mV/div in 1-2-5 sequence with 0.5% fine increments
Operating input voltage 1 V p-p within ±1 V range (with digital feedback, single-valued)
±400 mV relative to channel offset (without digital feedback, multi-valued)
Nominal input impedance (50 ±1) Ω
Accuracy ±2% of full scale ±2 mV over nominal temperature range (assuming temperature-related calibrations are performed)
DC offset range Adjustable from −1.000 V to 1.000 V in 10 mV increments (coarse). Also adjustable in fine increments of 0.2 mV. Referenced to the center of display graticule.
Maximum safe input voltage 16 dBm, or ±2 V (DC + peak AC)
Osciloscópio de alta frequência Pico série 9300 Optical/electrical converter (PicoScope 9321)
Bandwidth (−3 dB) 9.5 GHz typical
Effective wavelength range 750 nm to 1650 nm
Calibrated wavelengths 850 nm (MM), 1310 nm (MM/SM), 1550 nm (SM)
Transition time 51 ps typical (10% to 90% calculated from tR = 0.48/optical BW)
Noise 4 μW (1310 & 1550 nm), 6 μW (850 nm) maximum @ full electrical bandwidth
DC accuracy ±25 μW ±10% of full scale
Maximum input peak power +7 dBm (1310 nm)
Fiber input Single-mode (SM) or multi-mode (MM)
Fiber input connector FC/PC
Input return loss SM: −24 dB typical
MM: −16 dB typical, −14 dB maximum
Osciloscópio de alta frequência Pico série 9300 Timebase (sequential equivalent time sampling mode)
Digitizing rate With digital feedback (single-valued): DC to 1 MHz
Without digital feedback (multi-valued): DC to 40 kHz
Delta time interval accuracy
  Sequential equivalent time For >200 ps/div: ±0.2% of of delta time interval ±12 ps.
  Random equivalent time For =200 ps/div: ±5% of Delta time interval ±5 ps, whichever is smaller.
  Real time ±0.2% of of delta time interval or full horizontal scale, whichever is greater.
Scale
  Sequential equivalent time 5 ps/div to 3.2 ms/div (main, intensified and delayed)
  Random equivalent time 50 ns/div to 100 us/div
  Real time 2 μs/div to 100 ms/div
  Roll 200 ms/div to 10 s/div
Time interval resolution
  Sequential equivalent time =(screen width) / (record length) or approximately 64 fs, whichever is larger.
  Random equivalent time 4 ns min.
  Real time 1 μs min.
Data record length 32 to 32 768 points (single channel) in x2 sequence
Deskew 1 ps resolution, 100 ns max
Acquisition modes Sample (normal), average, envelope
Dynamic performance (typical)
RMS noise
Full bandwidth
Narrow bandwidth
With averaging
< 1.5 mV typical, < 2 mV maximum
< 0.8 mV typical, < 1.1 mV maximum
100 μV system limit
Trigger
Trigger sources All models: external direct, external prescaled, internal direct and internal clock triggers.
PicoScope 9302 and 9321 only: external clock recovery trigger
External direct trigger bandwidth and sensitivity DC to 100 MHz : 100 mV p-p
100 MHz to 2.5 GHz: increasing linearly to 200 mV p-p
External direct trigger jitter 1.8 ps (typ.) or 2.0 ps (max.) + 20 ppm of delay setting, RMS
Internal direct trigger bandwidth and sensitivity DC to 10 MHz: 100 mV p-p
10 MHz to 100 MHz: 100 mV p-p to 400 mV p-p (channels 1 and 2 only)
Internal direct trigger jitter 35 ps (typ.) or 40 ps (max.) + 20 ppm of delay setting, RMS (channels 1 and 2 only)
External prescaled trigger bandwidth and sensitivity 1 to 14 GHz: 200 mV p-p to 2 V p-p
External prescaled trigger jitter 1.8 ps (typ.) or 2.0 ps (max.) + 20 ppm of delay setting, RMS
Pattern sync trigger clock frequency 10 MHz to 11.3 GHz
Pattern sync trigger pattern length 7 to 8 388 607 (223−1)
Clock recovery (PicoScope 9302 and 9321)
Clock recovery trigger data rate and sensitivity 6.5 Mb/s to 100 Mb/s: 100 mV p-p
>100 Mb/s to 11.3 Gb/s: 20 mV p-p
Recovered clock trigger jitter 1 ps (typ.) or 1.5 ps (max.) + 1.0% of unit interval
Maximum safe trigger input voltage ±2 V (DC + peak AC)
Input characteristics 50 Ω, AC coupled
Input connector SMA (F)
Signal generator output
Modes Pulse, PRBS NRZ/RZ, 500 MHz clock, trigger out
Period range, pulse mode 8 ns to 524 μs
Bit time range, NRZ/RZ mode 4 ns to 260 μs
NRZ/RZ pattern length 27−1 to 223−1
TDR pulse outputs PicoScope 9311 PicoScope 9312
Number of output channels 2, differential
Impedance 50 Ω
Connectors Front panel SMA (f) x 2 Head N (m) fitted with N (f)-SMA (m) adaptor
Output enable Independent control for each channel
Pulse polarity Channel 1: positive-going from zero volts
Channel 2: negative-going from zero volts
Interchangeable positive and negative pulse heads
Rise time (20% to 80%) 57 ps guaranteed 35 ps guaranteed
Amplitude 2.5 V to 6 V into 50 Ω 200 mV typical into 50 Ω
Amplitude adjustment 20 mV increments Fixed
Amplitude accuracy ±10%
Offset 90 mV max. into 50 Ω
Level protection Adjustable from 2.5 V to 8 V
Output pairing Amplitudes and limit paired or independent
Period range 1 μs to 60 ms
Period accuracy ±100 ppm
Width range 200 ns to 4 μs, 0% to 50% duty cycle
Width accuracy ±10% of width ±100 ns
Deskew between outputs −1 ns to +1 ns typical, in 1 ps increments −500 ps to +500 ps typical, in 1 ps increments
Timing modes Step, coarse timebase, pulse
Patterns NRZ and RZ with variable length
TDR pre-trigger output PicoScope 9311 PicoScope 9312
Polarity Positive-going from zero volts
Amplitude 700 mV typical into 50 Ω
Pre-trigger 25 ns to 35 ns typical, adjustable in 5 ps increments
Pre-trigger to output jitter 2 ps max.
TDT system PicoScope 9311 PicoScope 9312
Number of TDT channels 2
Incident rise time (combined oscilloscope and pulse generator, 10% to 90%) 60 ps or less, each polarity 40 ps or less, each polarity
Jitter 3 ps + 20 ppm of delay setting, RMS, max. 2.2 ps + 20 ppm of delay setting, RMS, max.
Corrected rise time Min. 50 ps or 0.1 x time/div, whichever is greater, typical
Max. 3 x time/div, typical
Min. 30 ps or 0.1 x time/div, whichever is greater, typical.
Max. 3 x time/div, typical.
Corrected aberrations = 0.5% typical
TDR system PicoScope 9311 PicoScope 9312
Number of channels 2
Incident step amplitude 50% of input pulse amplitude, typical
Incident rise time (combined oscilloscope, step generator and TDR kit, 10% to 90%) 60 ps or less, each polarity 40 ps or less, each polarity
Reflected step amplitude 25% of input pulse amplitude, typical
Reflected rise time (combined oscilloscope, step generator and TDR kit, 10% to 90%) 65 ps or less @ 50 Ω termination, each polarity 45 ps or less @ 50 Ω termination, each polarity
Corrected rise time Minimum: 50 ps or 0.1 x time/div, whichever is greater, typical.
Maximum: 3 x time/div, typical.
Minimum: 30 ps or 0.1 x time/div, whichever is greater, typical.
Maximum: 3 x time/div, typical.
Corrected aberration = 1% typical
Measured parameters Propagation delay, gain, gain dB
TDR/TDT scaling PicoScope 9311 PicoScope 9312
TDT vertical scale volts, gain (10 m/div to 100 /div)
TDR vertical scale volts, ρ (10 mρ/div to 2 ρ/div), Ω (1 Ω/div to 100 Ω/div)
Horizontal scale time (200 ns/div longest) or distance (meter, foot, inch)
Distance preset units propagation velocity (0.1 to 1.0) or dielectric constant (1 to 100)
Math functions
Mathematics Up to four math waveforms can be defined and displayed
Math functions, arithmetic +, −, ×, ÷, ceiling, floor, fix, round, absolute, invert, (x+y)/2, ax+b
Math functions, algebraic ex, ln, 10x, log10, ax, loga, d/dx, integrate, x2, sqrt, x3, xa, x−1, sqrt(x2 +y2)
Math functions, trigonometric sin, sin−1, cos, cos−1, tan, tan−1, cot, cot−1, sinh, cosh, tanh, coth
Math functions, FFT Complex FFT, complex inverse FFT, magnitude, phase, real, imaginary
Math functions, combinatorial logic AND, NAND, OR, NOR, XOR, XNOR, NOT
Math functions, interpolation Linear, sin(x)/x, trend, smoothing
Math functions, other Custom formula
FFT Up to four FFTs simultaneously
FFT window functions Rectangular, Hamming, Hann, flat-top, Blackman–Harris, Kaiser–Bessel
Eye diagram Automatically characterizes NRZ and RZ eye patterns based on statistical analysis of waveform
Measurement and analysis
Markers Vertical bars, horizontal bars (measure volts) or waveform markers
Automatic measurements Up to 10 at once
Measurements, X parameters Period, frequency, pos/neg width, rise/fall time, pos/neg duty cycle, pos/neg crossing, burst width, cycles, time at max/min, pos/neg jitter ppm/RMS
Measurements, Y parameters Max, min, top, base, peak-peak, amplitude, middle, mean, cycle mean, AC/DC RMS, cycle AC/DC RMS, pos/neg overshoot, area, cycle area
Measurements, trace-to-trace Delay 1R-1R, delay 1F-1R, delay 1R-nR, delay 1F-nR, delay 1R-1F, delay 1F-1F, delay 1R-nF, delay 1F-nF, phase deg/rad/%, gain, gain dB
Eye measurements, X NRZ Area, bit rate, bit time, crossing time, cycle area, duty cycle distortion abs/%, eye width abs/%, rise/fall time, frequency, period, jitter p-p/RMS
Eye measurements, Y NRZ AC RMS, average power lin/dB, crossing %/level, extinction ratio dB/%/lin, eye amplitude, eye height lin/dB, max/min, mean, middle, pos/neg overshoot, noise p-p/RMS one/zero level, p-p, RMS, S/N ratio lin/dB.
Eye measurements, X RZ Area, bit rate/time, cycle area, eye width abs/%, rise/fall time, jitter p-p/RMS fall/rise, neg/pos crossing, pos duty cycle, pulse symmetry, pulse width
Eye measurements, Y RZ AC RMS, average power lin/dB, contrast ratio lin/dB/%, extinction ratio lin/dB/%, eye amplitude, eye high lin/dB, eye opening, max, min, mean, middle, noise p-p/RMS one/zero, one/zero level, peak-peak, RMS, S/N
Histogram Vertical or horizontal
Mask tests
Mask geometry Acquired signals are tested for fit outside areas defined by up to eight polygons.
Standard or user-defined masks can be selected.
Built-in masks, ANSI T1.102 DS1 (1.544 Mb/s) to STS3 (155.520 Mb/s)
Built-in masks, Ethernet 1.25 Gb/s 1000Base-CX Absolute TP2 to 10xGB Ethernet (12.5 Gb/s)
Built-in masks, Fibre Channel FC133 (132.8 Mb/s) to 10x Fibre Channel (10.5188 Gb/s)
Built-in masks, G.984.2 XAUI-E Far (3.125 Gb/s)
Built-in masks, InfiniBand 2.5G (2.5 Gb/s) to 5.0G (5 Gb/s)
Built-in masks, ITU G.703 DS1 (1.544 Mb/s) to 155 Mb (155.520 Mb/s)
Built-in masks, PCI Express R1.0a 2.5G (2.5 Gb/s) to R2.1 5.0G (5 Gb/s)
Built-in masks, RapidIO Level 1, 1.25 Gb/s to 3.125 Gb/s
Built-in masks, SATA 1.5G (1.5 Gb/s) to 3.0G (3 Gb/s)
Built-in masks, SONET/SDH OC1/STMO (51.84 Mb/s) to FEC 1071 (10.709 Gb/s)
Built-in masks, USB USB 3.0 (5 Gb/s), USB 3.1 (10 Gb/s)
Built-in masks, XAUI 3.125 Gb/s
Display
Styles Dots, vectors, persistence, grey scaling, color grading
Persistence time Variable or infinite
Screen formats Auto, single YT, dual YT, quad YT, XY, XY + YT, XY + 2 YT
Environmental
Temperature range (operating) +5 °C to +35 °C.
Temperature range (stated accuracy) +15 °C to +25 °C.
Temperature range (storage) −20 °C to +50 °C
Physical properties
Dimensions 170 mm x 260 mm x 40 mm (W x D x H)
Weight 1.2 kg max
Software
PicoSample 3 for Windows PicoSample 3 software has many advanced features such as mathematical analysis, histogram analysis, eye-diagram analysis and mask testing. All features are included as standard. Updates can be downloaded for free.
Software development kit The SDK allows you to control the scope from your own program. The software can act as an ActiveX COM server, allowing any program to send commands to it using a standard Windows protocol. This is ideal for production–test environments where multiple scopes need to be controlled from a single PC, or where automated tests need to be run. The SDK contains full documentation and example code for various programming languages.
Languages English
General
PC operating system requirements 32-bit edition of Windows XP (SP3), 32 or 64-bit edition of Windows Vista, Windows 7 or Windows 8 (not Windows RT)
LAN connection 10/100 Mb/s (PicoScope 9211A and 9231A only)
USB ports USB 2.0 (compatible with USB 3.0 and USB 1.1)
Compliance FCC (EMC), CE (EMC and LVD)
Total satisfaction guarantee In the event that this product does not fully meet your requirements you can return it for an exchange or refund. To claim, the product must be returned in good condition within 14 days.
Warranty 2 years (1 year for input sampler)

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Clique em gerador de pulso diferencial USB da série PicoSource® PG900

VNA Vector e network analyzer PicoVNA™ 106 @ 6Hz

 

Osciloscópio de alta frequência Pico série 9000 é na PerCon

Osciloscópio de alta frequência Pico série 9000 pode ser encontrado na PerCon Tecnologia sediada  na Rua Hermengarda 60 – Sala 605 -Torre do Meier – Meier – Rio de Janeiro – RJ (percon@acessopercon.com.br) / Fone : 21-2596-8369

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