The SENT-Simulyzer is a powerful development and test tool for the analysis, measurement, and simulation of SENT bus communication. The interface box enables fast and easy readout of sensor data and allows active interaction with communication using simulation data, supporting efficient development of modern sensor technologies.

The Simulyzer is part of the Simulyzer product family and is designed for acquisition, analysis, and simulation of sensor communication, simplifying development, validation, and testing processes.

Features and Capabilities

Analyze, Measure and Simulate
The SENT-Simulyzer enables full analysis and simulation of SENT bus data. Communication data can be captured, visualized, recorded, and actively modified for development or test scenarios. Simulation data can also be generated and transmitted to ECUs.

Support of the SENT Specification
The Simulyzer supports all operating modes defined by the SENT specification, enabling realistic testing of sensors and ECUs. Communication can be monitored, recorded, and analyzed in detail.

Powerful Software and Integration
The SENT software provides advanced visualization, analysis, and recording features. Signals, baud rates, error detection, and trigger events can be configured flexibly. Communication data is recorded with time stamps and can be imported or exported.

An API is available for integration into custom test systems and automation environments. Optional LabVIEW integration is available.

Flexible Hardware Interfaces
The SENT-Simulyzer provides:

• USB interface for configuration and data transfer
• Sensor and ECU connections for SENT communication
• Optional extensions such as CAN interface or additional channels
• External power supply
• Optional data logging and transfer via supported software functions
  
  

High Measurement Performance
The Simulyzer enables high-resolution recording of SENT voltage signals and precise timing analysis, ensuring reliable and repeatable measurement results.

Typical Applications
Typical application areas include:

• Automotive sensor development
• ECU development and validation
• Hardware-in-the-Loop testing
• Laboratory and validation setups
• Sensor characterization and troubleshooting