Detailed instructions for use are in the User's Guide.
[. . . ] CAN and LIN Timing and Protocol Decode Software
TDSVNM Data Sheet
Features & Benefits
Oscillator Tolerance Measurements help in Addressing Network Synchronization Issues Simultaneous Protocol Decoding of CAN and LIN Messages helps in ensuring Communication Accuracy and Acceptable Latency between Two Network Segments Ability to Link Decoded and Time-stamped CAN Messages to their Timing Waveform, to More Clearly Visualize Bus Functions Integrated Search Functions help to Efficiently Debug Network Problems at the Data Link layer CAN Eye Diagram Analysis Quickly Locates Noise in the CAN Message caused by Jitter, Amplitude Aberration, Spikes, and Glitches Bus Traffic Measurement helps in Optimizing Network Performance for Different CAN Message Frames CAN Single Wire, CAN Dual Wire, and CAN Fault Tolerance Capabilities provide Versatility Setting Trigger Conditions to Detect Overload, Error, and Remote Frames helps to Quickly Identify CAN Network Communication Errors Ability to Generate the ACK bit Removes the Need for a Receiving CAN Node when Testing a Single CAN Node
Applications
In-vehicle Network Integration Easy System Integration CAN and LIN Protocol Decoding
Data Sheet
CAN and LIN Timing and Protocol Decode Software
TDSVNM CAN and LIN Timing and Protocol Decode software transforms Tektronix real-time Windows oscilloscopes into sophisticated in-vehicle network management tools that provide trigger capabilities, oscillator tolerance, and simultaneous protocol decoding of CAN and LIN messages that help to ensure seamless and reliable operation of the network.
messages for quick characterization, and debugging network performance. Using the zoom features, you can now easily view the specific CAN message at higher resolution during long time captures of the CAN/LIN traffic using the long acquisition memory of the oscilloscope. [. . . ] Mismatch in data rate can cause a series of error messages to be generated, hampering network performance. CAN eye diagram analysis quickly pinpoints problems caused by excessive jitter, amplitude aberration, spikes, and glitches in CAN messages. CAN and LIN Protocol Decoding TDSVNM makes it very easy to interpret NRZ-encoded information in CAN and LIN messages. This software coverts the time domain information into data-link layer information (Hex or Binary) in CAN or LIN format, saving valuable design time. Time stamp information provided by the TDSVNM software quickly measures the latency time between the two associated
Capture CAN and LIN Data
The powerful trigger capabilities offered by DPO7000 Series' internal CAN triggers, coupled with the TDSVNM's graphical user interface, make this solution one of the best suited to analyze CAN and LIN traffic at specific conditions. By triggering on any of the CAN frame types and its bit value, engineers can debug difficult problems easily.
Characteristics
DPO7000 Integrated CAN Trigger SOF, Data Frame, Remote Frame, Form Error,
Overload Frame, EOF, and Missing ACK.
CAN Timing Measurements Oscillator Tolerance, Bus Traffic, Eye Diagram, Data
Rate.
Protocol Decoding CAN 2. 0A, CAN 2. 0B, LIN 1. 2, LIN 1. 3, LIN 2. 0. Simultaneous
protocol decoding of CAN-CAN and CAN-LIN messages from any two segments of the network. Protocol Decode Utilities Link protocol decoded message to time domain waveform, Zoom on YT waveform for specific CAN messages, Time stamp, Search, Markers, Save.
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CAN and LIN Timing and Protocol Decode Software -- TDSVNM
Ordering Information
TDSVNM
CAN and LIN Timing and Protocol Decode Software.
Model New Instrument Orders Product Upgrades Floating Licenses
Recommended Accessories
For CAN signal probing, a differential probe is recommended. Please refer to www. tek. com/probes for further information on the recommended models of probes and any necessary probe adapters.
Additional Information
DPO/DSA/MSO70000 Series DPO7000 Series TDS5000B Series
Opt. VNM
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Additional information about CAN/LIN testing is available at www. tek. com/applications. [. . . ] Information in this publication supersedes that in all previously published material. All other trade names referenced are the service marks, trademarks, or registered trademarks of their respective companies. [. . . ]