Software Options


The CAN FD Trigger, Decode, Measure/Graph and Eye Diagram (TDME) solution provides high performance triggers and transparent color-coded decode overlays, protocol tables, and search capabilities, Measure/Graph (M) capability with automated measurement and graphing tools, and Eye Diagram (E) capability for physical layer signal assessment and debug for both CAN and CAN FD. Symbolic DBC files may be used to set up the trigger, display symbolic decodes, and select parameters for serial digital data extraction to an analog value.

Explore CAN FDbus TDME Explore CAN FDbus TDME
Key Features
  • Supports both CAN and CAN FD
  • Error-frame red color decode highlight
  • DATA trigger pattern setup can be less than full bytes/nibbles and can be spread across bytes
  • Conditional DATA trigger definition (<, <=, =, >, >=, <>, IN RANGE, OUT of RANGE)
  • Conditional ID trigger definition (<, <=, =, >, >=, <>, IN RANGE, OUT of RANGE)
  • Supports J1939, J1939+1, and J1939+2
  • Supports 29-bit GM CAN Priority ID, Source ID, Parameter ID trigger and decode
  • Intuitive, color-coded decode overlays
  • Interactive protocol table with zoom and pattern search
  • Automated timing measurements
  • Serial digital data extraction to an analog value (serial DAC) with waveform graphs
  • Eye Diagrams with failure location


Conditional DATA Trigger Setup ("T")

The trigger permits a conditional (<. <=, =, >, >=, <>, inside a range, outside a range) setup for the DATA condition. This is especially useful in situations where abnormal events should be monitored, such as when a CAN node broadcasts a low or high engine RPM or coolant pressure.

Trigger Flexibly Across Data Bytes ("T")

CAN remains the most used vehicle serial data bus. Many vehicle bus software architectures are very message dense, and data for a single message is spread across multiple data bytes. The hexadecimal and measurement toolsets permit isolation of specific bit-level data patterns in one or more data bytes, e.g., data location in bits 17-28 in data bytes 3, 4, and 5. This provides significant advantages in isolating the exact information or behavior you need. Symbolic message/signal setup is even simpler.

Intuitive, Color-coded Decode Overlays ("D")

A transparent overlay with color-coding for specific portions of each protocol and the entire message frame makes it easy to understand your serial data information. Unlike other solutions, with protocol decode information away from the signal, our solution correlates the waveform and the protocol decode directly on the display. As the acquisition length is expanded or shortened, the decode overlay will adjust to show you just the right amount of information.

Interactive Table Summarizes Results ("D")

Turn the oscilloscope into a protocol analyzer with a tabular display of decoded information. Customize the table to show only the data of interest and touch a message in the table to automatically zoom to it and display it on the screen. Export the table for offline analysis. Up to four different decoded signals of any type may be simultaneously displayed in the table.

Measure/Graph Tools for Validation Efficiency ("M")

Quickly validate cause and effect with automated timing measurements to or from an analog signal or another serial message. Make multiple measurements in a single long acquisition to quickly acquire statistics during corner-case testing. Serial (digital) data can be extracted to an analog value and graphed to monitor system performance over time, as if it was probed directly. Complete validation faster and gain better insight.

Eye Diagrams ("E")

Rapidly display an eye diagram of your packetized low-speed serial data signal without additional setup time. Use eye parameters to quantify system performance and apply a standard or custom mask to identify anomalies. Mask failures can be indicated and can force the scope into Stop mode.