9211 Pico, 9211 Datasheet - Page 3
9211
Manufacturer Part Number
9211
Description
Sampling Oscilloscope; PC-Based, USB/LAN; 12 GHz, 2 Channels
Manufacturer
Pico
Type
PC-Basedr
Datasheet
1.9211.pdf
(4 pages)
Specifications of 9211
Bandwidth
12000 MHz
Configuration
Handheld
Number Of Channels
2
Sample Rate
5000 GS/s
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
9211BF-01
Manufacturer:
SMD
Quantity:
10 800
Powerful mathematical analysis
Eye-diagram analysis
Mask testing
The PicoScope 9000 Series supports up to four simultaneous
mathematical combinations and functional transformation of
acquired waveforms.
You can select any of the mathematical functions as a maths
operator to act on the operand or operands. A waveform
maths operator is a maths function that requires either one
or two sources. The operators that involve two waveform
sources are: Add, Subtract, Multiply, and Divide. The
operators that involve one waveform source are: Invert,
Absolute, Exponent, Logarithm, Differentiate, Integrate,
Inverse, FFT, Interpolation, Smoothing.
The PicoScope 9000 Series quickly measures more than 30
fundamental parameters used to characterise non-return-to-
zero (NRZ) signals and return-to-zero (RZ) signals. Up to
four parameters can be measured simultaneously.
For eye-diagram masks, such as those specified by the
SONET and SDH standards, the PicoScope 9000 Series
supports on-board mask drawing for visual comparison.
The display can be grey-scaled or colour-graded to aid in
analysing noise and jitter in eye diagrams.
Dual SMA inputs with
12 GHz bandwidth
PicoScope 9000 Series front panel
1 GHz full-function trigger
12.3 Mbps to 2.7 Gbps clock recovery input
Histogram analysis
A histogram is a probability distribution that shows the
distribution of acquired data from a source within a user-
definable histogram window. The information gathered by
the histogram is used to perform statistical analysis on the
source.
Histograms can be constructed on waveforms on either
the vertical or horizontal axes. The most common use for
a vertical histogram is measuring and characterising noise
on displayed waveforms, while the most common use for a
horizontal histogram is measuring and characterising jitter on
displayed waveforms.
(PicoScope 9211)
10 GHz prescaled trigger
Tough aluminium
enclosure protected
by rubber bumpers