Power Systems
Power Systems
04 / 28 / 2026
Why closed loop stability defines PHIL test accuracy
Closed-loop stability sets the limit for PHIL accuracy, especially when delay, bandwidth, interface choice, amplifier dynamics, and controller gain interact.
Power Systems
04 / 28 / 2026
Complete guide to 240V PHIL test benches for modern power system validation
A clear explanation of how 240V PHIL test benches work, what sets closed-loop stability, and how teams choose a platform for accurate power validation.
Power Systems
04 / 27 / 2026
PHIL configuration playbook for multi-mode and multi-voltage testing
This guide explains how to configure PHIL systems for AC and DC testing with fixed interfaces, clear timing limits, defined protections, and traceable voltage changes.
Power Systems
04 / 24 / 2026
Accelerating R&D cycles using hardware in the loop testing
A clear guide to how hardware in the loop testing cuts validation time through earlier integration checks, better model fidelity, tighter timing control, and sharper test scope.
Power Systems
04 / 24 / 2026
Flexible PHIL architectures that adapt to evolving power system requirements
A practical guide to flexible PHIL architecture, modular simulation systems, and test bench choices for power system validation.
Power Systems, Automotive
04 / 23 / 2026
How real-time simulators enable hardware-in-the-loop testing for automotive battery systems
This piece explains how real-time simulators support hardware-in-the-loop testing for automotive battery systems and where battery testers and load testers fit in a staged validation flow.
Power Systems
04 / 23 / 2026
How to select a power amplifier for PHIL applications
A practical guide to choosing a power amplifier for PHIL based on loop stability, delay, ratings, four-quadrant power flow, output impedance, amplifier class, and protection settings.
Power Systems
04 / 21 / 2026
What 4 quadrant operation means in PHIL amplifiers
This piece explains how four-quadrant amplifier operation affects source and sink control, PHIL stability, and amplifier selection for regenerative tests.
Power Systems, Simulation
04 / 17 / 2026
Why real-time simulation is critical for battery thermal management and safety validation
This piece explains why automotive teams use real-time simulation to validate battery thermal management, closed-loop control, and battery safety testing before full pack hardware is available.
Power Systems, Automotive
04 / 16 / 2026
Understanding voltage, current and power ranges in PHIL amplifiers
This piece explains how to size voltage, current, and power ranges for PHIL amplifiers with practical guidance on stability, accuracy, and system constraints.