Datasheet
Datasheet
White edges indicate additional information is available by acquiring at a higher sample
rate.
The P6316 MSO probe offers two eight-channel pods to simplify connecting to your
device.
The multiple transition detection hardware of the MSO2000B S eries will
show you
a white edge on the display when the system detects multiple
transitions. This acts as a visual reminder that increasing the sample rate
on the next acquisition will reve al higher frequency information than your
previous settings cou ld acquire.
The MSO2000B Series simplifi es channel setup by allowin g you to group
digital w aveforms and enter waveform labels by using a USB keyboard.
By simply placing digital waveforms next to each other, they form a group.
Once a gro up is formed, you can position all th e channels contained in that
group c
ollectively. This great ly reduces the normal setup time associated
with positioning channels individually.
P6316 MSO Probe
This un
ique probe design offers two eight-channel pods, simplifying the
process of connecting to the device-under-test. When connecting to square
pins, the P6316 can connect directly to 8×2 square pin h eaders spaced
on tenth-inch centers. When more attach ment flexibility is required, you
can use the included flying lead sets and grabbers to clip onto surface
mount devices or test points. The P6316 offers outstanding electrical
chara
cteristics applying only 8 pF of capacitive loading with 101 kΩ input
impedance.
Output of DAC Signal – Notice how FilterVu™ clearly shows the noise-free steps of the
DAC in the foreground trace (yellow) which has removed all frequencies above 5.5 kHz.
FilterVu also captures and displays high-frequency glitches up to the full bandwidth of the
oscilloscope in the background trace (orange).
FilterVu™ Variable Low-pass Filter
Tired of being limited to a 20 MHz bandwidth filter in your oscilloscope?
Simply turn on FilterVu and adjust the variable low-pass noise filter. Unlike
other var
iable low-pass filters, FilterVu filters out the unwanted noise from
your signal while still capt uring glitches and other signal d etails up to the full
bandwidth o f the oscilloscope. It does this by showing two waveforms: a
waveform that can be filtered (foreground waveform) and a glitch capture
waveform (background wave form).
The filtered waveform uses a variable low-pass filter to block out noise,
yielding a cleaner wavefo rm to more precisely locate signal edges
and amplitude levels. Th e result is improved confidence in you cursor
measure
ments and cleaner documentation of important signal attributes.
When the noise filter is adjusted to the lowest available noise-cutoff
frequency, no more than 1% of high-frequency content that could cause the
oscilloscope to alias will pass through the filter.
The glitch capture waveform shows signal details up to the full bandwidth of
the oscilloscope. The oscilloscope captu res pulses as narrow as 5 ns, using
peak-detect min/max sampling, protecting you from missing unexpected
glitches or other high-frequency events.
FilterVu is ideal fo r repetitive, nonrepetitive, and single-shot events.
6 www.tektronix.com