Test & Measurement

Oscilloscopes debug ability enhanced to meet ISO CAN FD

8th June 2015
Mick Elliott
0
Datasheets

ISO CAN FD (controller area network with flexible data rate) decoding and triggering has been added to Keysight Technologies’ InfiniiVision 4000 and 3000T X-Series oscilloscopes. The new capabilities improve engineers’ efficiency in debugging the ISO 11898-1 standard CAN FD, as well as the original non-ISO CAN FD protocol.

CAN FD is the next-generation, higher-performance serial bus protocol for automotive control and diagnostic applications. It allows engineers to reduce bus loads and increase throughput for today’s demanding automotive applications.

With “classic” CAN 2.0, transmission rates are limited to 1Mbps because of the event-driven nature of this serial bus. With CAN FD, transmission rates increase during the data phase of each frame and maximum specified payload sizes are increased from 8bytes up to 64bytes. Moving from CAN 2.0 to CAN FD technology offers an easier and more seamless migration path compared with adopting other time-triggered serial bus protocols such as FlexRay.

With the higher data rates of CAN FD, using an oscilloscope to test and debug the signal integrity (physical layer) of these higher-speed signals is critical. Keysight’s new CAN FD triggering and decode capabilities in its oscilloscopes rely on hardware-based decoding to enable the industry’s fastest decode update rates.

Faster waveform and decode update rates increase the scope’s probability of capturing random and infrequent errors. Detection and elimination of bus errors during the design phase is crucial for automotive safety.

In addition to the ability to quickly capture infrequent bus errors with hardware-based decoding, 4000 and 3000T X-Series oscilloscopes provide the industry’s most extensive CAN FD error triggering and analysis.

This includes the ability to decode, totalise and trigger on specific errors (optionally filtered by frame ID) such as stuff-bit errors, form errors, CRC errors, acknowledge errors and error frames

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