|
|
|
TDSJIT3 Advanced and TDSJIT3 Essentials
Jitter and Timing Analysis Software
|
Features & Benefits
- Use the Jitter Wizard to Easily
Make Accurate Jitter Measurements
- Analyze Random and Deterministic
Jitter (Rj/Dj) and Estimate Total Jitter at BER
- Analyze Deterministic
and Total Jitter on Repeating or Arbitrary Random Data Patterns
- Analyze Frequency-bounded Jitter and Timing Measurements using
Timing Measurement Filters (First, Second, and Third-order High-pass
and Low-pass Butterworth)
- Acquire, Capture, Store, and Analyze
Worst-case Offenders
- View Simultaneous Results from Alternate
Measurement Configurations Designated on a Single Channel or Source
- Qualify Jitter Measurements Using Channel Inputs, Cursors or
Timing Details, Population Size, and Amplitude Range
- View
and Analyze Jitter Spectrums, Histograms, and Trends with One Click
- 400 fs Typical Jitter Noise Floor with DSA72004
- 800
fsRMS Typical Jitter Accuracy with DSA72004
- Utilize
a Configurable Golden PLL (TDSJIT3 Advanced only)
- Differential
Crossover Voltage Measurements (TDSJIT3 Advanced only)
Applications
- Characterize Timing and AC
Performance of High-speed Parallel and Serial Designs and Systems
to 10.25 Gb/s and Beyond
- Characterize Data-to-Data and Clock-to-Data
Jitter
- Characterize PLL Dynamic Performance and Transfer
Functions
- Characterize Modulation of Spread Spectrum Clock
Circuits
- Characterize Jitter Generation, Transfer, and Tolerance
- Characterize Clock and Data Jitter in HyperTransport, PCI Express,
Fibre Channel, SONET, Serial ATA, and other Electrical or Optical
Physical Layer Circuits
User-installed,
Oscilloscope-resident Timing Analysis Package
TDSJIT3 is the
premiere jitter and timing analysis software package available for
real-time oscilloscopes. Running externally or within the Tektronix
DPO7000, DPO/DSA70000, TDS5000B, TDS6000B/C, and TDS/CSA7000B Series
oscilloscopes, TDSJIT3 provides the highest accuracy and lowest noise
jitter measurements available in any real-time instrument. With comprehensive
jitter analysis algorithms TDSJIT3 simplifies discovering jitter and
its related sources in today's high-speed digital, communication,
and system designs.
Digital designers, analog designers, communication
and systems engineers in the computer, semiconductor, and communications
industries are facing new challenges as processor clock speeds race
beyond 3 GHz and backplane electrical data rates greater than 6 Gb/s
become commonplace. These increasing clock and data speeds mean reduced
circuit tolerance, or margin, for noise and jitter. By using tools
to rapidly characterize and discover sources of jitter, designs can
be made more robust, brought to market faster, and ultimately operate
better in today's ultra high-speed environment.
Measurements
|
Measurement
|
Description
|
|
General Measurements
|
Rise Time, Fall Time, Positive Width, Negative Width, High
Time, Low Time, Skew, Differential Crossover Voltage*1
|
|
Clock Measurements
|
Frequency, Period, Cycle-Cycle, N-Cycle, Positive Cy-Cy Duty,
Negative Cy-Cy Duty, Positive Duty Cycle, Negative Duty Cycle, Clock
TIE, Clock PLL TIE*1
|
|
Data Measurements
|
Data Frequency, Data Period, Data TIE, Data PLL TIE*1
|
|
Clock to Data
|
Setup, Hold, Clock-out
|
|
Advanced Analysis*1
|
Rj, Dj, Pj, DCD, DDj, Tj, BER
|
|
Plots
|
Histogram, Time Trend, Cycle Trend, Spectrum, Eye Diagram
Statistics*1 (BER CDF Curve), Phase Noise, Transfer Function
|
|
Data Logging
|
Statistics, Min/Max Wfm, Snapshot, Worst-case
|
*1 Features are only available with TDSJIT3 Advanced.
TDSJIT3 Jitter Measurements
The TDSJIT3 Jitter Analysis Software extends Tektronix’ real-time
oscilloscopes capability, performing complex measurements on contiguous
clock cycles or data edges single-shot acquisitions. Providing jitter
measurements for most key timing parameters required by today’s interface
standards, TDSJIT3 Advanced and TDSJIT3 Essentials are specifically
designed to meet the jitter measurement needs of today's high-speed
digital designers in the computer and communications industries. Measurements
can be made on differential signals, between two separate inputs,
or on multiple inputs simultaneously. Multiple measurements and plots
can be displayed on the internal and external monitor. Trend analysis
plots quickly show how timing parameters can change over time, like
frequency drift, PLL startup, or response to power supply changes.
Spectrum analysis quickly shows the frequency of jitter and modulation
sources for easier identification: adjacent oscillators and clocks,
power supply noise, or signal crosstalk. Comprehensive statistics
and histograms of timing parameters enhance the powerful analysis
capabilities of TDSJIT3 Plot displays and data can be relocated to
the second monitor, saved to disk, or exported for further analysis.
Acquired waveforms and measurement data logs can be saved for later
analysis. You can quickly make accurate total jitter (Tj) estimates
at levels down to 1×10-18 BER on common data signals including
those with random pattern content. Control population size across
single or multiple acquisitions; qualify what part of a signal is
measured; correlate jitter trends and peaks to the original acquisition
waveform; even share and analyze stored waveforms captured by colleagues.
TDSJIT3 Jitter Analysis screenshot
TDSJIT3 Trend Analysis plot
Characteristics
DPO7000 Series (TDS5000/B,
TDS6000/B, TDS7000/B, and CSA7000/B Series Provide Similar Capability)
|
Characteristic
|
Description
|
|
Jitter Noise Floor
|
0.6 psRMS (DPO7354, typical over 10 μs acquisition).
|
|
Jitter Measurement Accuracy
|
1.5 psRMS (DPO7354, typical over 10 μs acquisition).
|
|
Delta Time Accuracy
|
3.0 psRMS (20 GS/s, ≤10 nS measurement period).
|
|
Delta Time Accuracy Specification
|
[0.06/(sample_rate) + 1.5 ppm×|Measurement_period|]RMS
|
|
±[0.30/(sample_rate) + 1.5 ppm×|Measurement_period|]pk
|
DPO/DSA70000 Series (TDS6000C Series Provide
Similar Capability)
|
Characteristic
|
Description
|
|
Jitter Noise Floor
|
400 fsRMS (DSA72004, typical over 10 μs acquisition)
|
|
Jitter Measurement Accuracy
|
800 fsRMS (DSA72004, typical)
|
|
Delta Time Accuracy
|
600 fsRMS (typical, see instrument manual for details)
|
Physical Characteristics
Software
supplied on compact disk media.
Software application running
on the DPO7000, DPO/DSA70000, TDS5000/B, TDS6000B/C, and TDS/CSA7000/B
Series four-channel oscilloscopes.
Ordering Information
TDSJIT3 Advanced
|
Order Option
|
DPO7000, DPO70000, TDS5000B, TDS6000B/C, TDS/CSA7000B Series
Oscilloscope
|
|
Opt. JA3
|
To Have Preinstalled On New Oscilloscope
|
|
Opt. JA3
|
To Upgrade Your Existing Oscilloscope
|
Note: TDSJIT3 Advanced is included with DSA70000
Series instruments.
TDSJIT3 Essentials
|
Order Option
|
DPO7000, DPO70000, TDS5000B, TDS6000B/C, TDS/CSA7000B Series
Oscilloscope
|
|
Opt. JE3
|
To Have Preinstalled On New Oscilloscope
|
|
Opt. JE3
|
To Upgrade Your Existing Oscilloscope
|
To Upgrade Versions of TDSJIT3
|
Order Option
|
Upgrade Path
|
|
Opt. JTA
|
TDSJIT3 (JT3) v1 to TDSJIT3 v2 Advanced (JA3)
|
|
Opt. E3A
|
TDSJIT3 (JE3) v2 Essentials to TDSJIT3 v2 Advanced (JA3)
|
|
Opt. 3EA
|
TDSJIT3 (J3E) Essentials v1 to TDSJIT3 v2 Advanced (JA3)
|
|
Opt. 3EE
|
TDSJIT3 (J3E) Essentials v1 to TDSJIT3 v2 Essentials (JE3)
|
Includes: Software on CD, manual on CD.
Recommended Accessories
|
Accessory
|
Description
|
|
Arbitrary Waveform Generator
|
AWG7102
|
|
Active Probes
|
P7500 TriMode™ active probe with DPO/DSA70000 Series, and
TAP1500 and TAP2500 with the DPO7000 Series
|
|
Differential Probe
|
P7500 TriMode™ active probe with DPO/DSA70000 Series
|
|
High-bandwidth Differential Acquisition System with SMA Inputs
|
P7313SMA differential probe adapter
|
Notes:
TDSJIT3 is not compatible with
two-channel oscilloscopes.
Installing TDSJIT3 replaces earlier
versions such as TDSJIT2.
55W-14872-5, 09-APR-2007
|
|
 |
(WebID: 13457)
|
