Jitter analysis and clock data recovery
R&S
®
RTP
1014User Manual 1337.9952.02 ─ 12
Table 18-1: Jitter measurements
Measurement Description/Result
Cycle-cycle jitter Difference between the periods of two adjacent cycles. The measure-
ment is based on the period measurement. You can select the slope
and the reference level on which the period is measured.
Δ
T
Period k
= T
Period k+1
- T
Period k
for k = 1,...,K-1
See also: Chapter 18.1.2.2, "Settings for clock measurements",
on page 1016
N-cycle jitter Difference between the time of two adjacent groups of N cycles (peri-
ods) each. You can select the slope and the reference level on which
the time is measured, and the number of periods in the groups.
Δ
T
Ncycle k
= T
Ncycle k+1
- T
Ncycle k
for k = cycle group index
... ... ...
N periods N periods
T
Ncycle1
T
Ncycle2
ΔT
Ncycle1
= T
Ncycle2
- T
Ncycle1
Cycle-cycle width Difference between the pulse width of two adjacent cycles. The mea-
surement is based on the pulse width measurement. You can select
the pulse polarity to be measured.
Δ
T
Pulse k
= T
Pulse k+1
- T
Pulse k
for k = 1,...,K-1
Cycle-cycle duty cycle Difference between the duty cycle of two adjacent cycles. The mea-
surement is based on the duty cycle measurement. You can select the
pulse polarity for the duty cycle measurement.
Δ
R
Cyc k
= R
Cyc k+1
- R
Cyc k
for k = 1,...,K-1
Time interval error Time difference between the slope of the input signal and the slope of
a reference signal. The reference signal can be a captured clock
waveform, or a clock generated by clock data recovery (CDR, software
algorithm or hardware generation). You can select the slope and the
reference level on which the TIE is measured.
TIE
k
= t
Signal k
- t
Clock k
for k = 1,...,K
See also: Chapter 18.1.2.3, "Data measurement settings",
on page 1018
Unit interval Period of the clock signal. If no clock signal is available, it is recovered
by CDR. The period is calculated as the time difference between two
consecutive clock edges of the same polarity.
UI
k
= t
Clock k+1
- t
Clock k
for k = 1,...,K-1
Jitter measurements (Option R&S RTP-K12)
To Next Page
Loading...
