The affordable TLA6400 Series of logic analyzers offer the performance needed to debug, validate, and optimize the functionality of your digital system. The TLA6400 Series also provides a comprehensive set of signal integrity debug tools that allow you quickly isolate, identify, and characterize elusive and hard-to-find problems. Add a broad range of support for today’s applications, and you have the ideal tool to help you meet all of the debug challenges of today’s digital designs.
|Model||Channels||Max State Clock Rate||Timing||Timing Resolution||List Price||Configure and Quote|
|TLA6401||34||667 MHz||25 GHz||40 ps||$11,900||Configure & Quote|
|TLA6402||68||667 MHz||25 GHz||40 ps||$15,300||Configure & Quote|
|TLA6403||102||667 MHz||25 GHz||40 ps||$18,200||Configure & Quote|
|TLA6404||136||667 MHz||25 GHz||40 ps||$21,400||Configure & Quote|
40 ps Resolution
MagniVu™ acquisition mode enabled you to accurately see signal relationships in your system.
Sample your fastest synchronous buses with clock rates up to 667 MHz and data rates up to 1333 Mb/s.
15 in. Display
With the large display and optional touch screen, you can see more of your data and navigate efficiently through it.
Choose 34, 68, 102 or 136 channels and up to 64 Mb record length which offers flexible solutions to fit any budget.
Simply drag any one of eight different trigger types from a table onto the waveform and the logic analyzer will automatically set up the trigger conditions, eliminating errors, improving repeatability, and saving time.
Simply drag an icon from the measurement toolbar and drop it onto your signal of interest and get a table of results. Saves time, removes complexity, and reduces measurement uncertainty.
Glitch Trigger and Storage
Allows you to trigger on and highlight potential signal integrity problems. Not only can the TLA6400 Series trigger on the problem, but by highlighting suspected problems in red, you will be able to easily determine which signals you need to further investigate.
Route the suspected signal to the analog output of the TLA6400 Series using the exclusive Tektronix iCapture feature. This eliminates the need to add an additional oscilloscope probe, minimizing potential loading issues and further reducing time to debug.
Time-correlated view of both logic analyzer and oscilloscope data to trace the signal integrity problem across the digital and analog domains.
|Data Sheet||Probe||Description||Configure and Quote|
|View Datasheet||P5910||17-Channel General Purpose Probe for TLA6400 Logic Analyzers; Fits both 0.100 in. and 2 mm square pin configurations; Single-Ended Data,Single-Ended Clock||Configure & Quote|
|View Datasheet||P5934||34-Channel Mictor Probe for TLA6400 Logic Analyzers; Single-Ended Data,Single-Ended Clock||Configure & Quote|
|View Datasheet||P5960||34-Channel D-Max Probe for TLA6400 Logic Analyzers; Single-Ended Data,Single-Ended Clock||Configure & Quote|
Logic Analyzer Fundamentals
Learn the basics and benefits of logic analyzers - see how this tool can solve your debug challenges.
Fundamentals of Signal Integrity Primer
This primer is to provide some insight into signal integrity-related problems in digital systems, and to describe their causes, characteristics, effects, and solutions.
Quick Signal Integrity Troubleshooting with Integrated Logic Analyzers & Oscilloscopes
Fast product development requires fast and efficient troubleshooting of signal integrity problems. Signal integrity is a growing priority as digital system designers pursue ever-higher clock and data rates...