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Electronic circuits for autonomous vehicles and other mission critical systems:
Testing by simulation to
improve robustness, reliability, and safety

To verify the quality and reliability of electronic circuits, massive testing is required. Furthermore, manual safety verification is needed in order to comply with various IEC/ISO standards.

BQR introduces a new type of safety and reliability simulation (instead of massive testing and manual an
alysis) which detects hidden design errors before manufacturing the first prototype for testing.

The simulation reduces design cycles thereby saving money and reducing TTM. The product becomes best in class, free of hidden design errors and improves manufacturer reputation.
Circuit simulator for design error detection

BQR offers software and professional service for component stress analysis by circuit stress simulation.
The simulation includes several layers to cover all potential failure types, as follows:

  Automated calculations of electrical operational parameters such as Voltage and Current for each IC Pin, Net and Pad. Performing a components derating analysis and providing electrical constrains for the next step
  Automated design and schematic analysis which tests all ICs and semiconductors and compares the previous electrical constrains to components’ datasheets requirements
  Provide full electrical stress analysis and derating to avoid over stress and over design
  Help to select the optimal components size/rating for the operational temperature
  Calculate the MTBF and provide accurate electrical stress data for Life (Probability of failures vs. time) and Physics of Failure- PoF
  Automated components failure modes and safety analysis (FMEA/FMECA/FTA)
  The analysis includes electronic hardware and software failures
  Guide the final verification test plan
  Automatically generate all IEC/ISO standards reports for the authorities
  Reports at the component, board and system levels in early design stages

Unique Features:

  The new simulation is integrated with major E-CAD tools such as Altium, OrCAD and Mentor
  All data related to the simulation is embedded in the schematic database, so if there is a design change it can be done easily
  Data is organized in libraries for easy reuse

Following is an example design error which was identified using BQR’s simulation software:

In the figure below transistor Q1 provides digital input to pin 40 of U1. It should be above 2.3V for “1” logic, and below 1.0V for “0” logic.
But Q1 provides 1.052V which U1 will intermittently interpret as “1” or “0”.
This design error results in unstable U1 functionality which is difficult to detect and


Digital Levels
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