Take your motor drive analysis to the next level! Join Teledyne LeCroy in this on-demand Learning Lab series on measuring high-power 3-phase motor inverter and drive systems with an 8-channel high-resolution oscilloscope or motor drive analyzer. We’ll explore everything from static and dynamic AC line measurements to motor mechanical performance and more!
Register to Watch On DemandIn this session, we will describe techniques for measuring dead times for gate-drive signals and device outputs to ensure that margins are achieved. We will also assess the input and output power of a simplified single-phase DC-AC inverter.
In this session, we will describe the differences between static and dynamic power analysis and how to optimize setup and measurement for each. Special attention will be paid to visualizing dynamic power trends and the correlation of these trends back to acquired voltage and current waveforms.
In this session, we review examples of using calculated per-cycle power waveforms to validate and debug control system operation to power section behaviors.
In this session, we will review examples of power calculated during power periods equivalent to a device switching time. This is especially helpful for understanding instantaneous control response time, as required for deadbeat-direct torque and flux control (DB-DTFC) and other rapid response control systems.
In this session, we will demonstrate how to perform total harmonic distortion (THD) and harmonic analysis on variable frequency waveforms on both AC line (50 or 60 Hz) inputs and variable frequency outputs.
In this session, we focus on how to use the Motor Drive Analyzer to measure motor mechanical shaft speed, torque, and angle using a variety of analog, digital, and serial data sensors.