LTspice inverter noise suppression model
This article describes the process by which a heavy industry company faced inverter noise problems and requested Bee Technologies create a simulation model using LTspice to fundamentally resolve the issue. The initial request called for a general-purpose inverter model and the ability to adjust noise suppression components such as gate resistors and snubber circuits. In response, an LTspice model based on a single-phase half-bridge was provided, and a method for evaluating noise suppression using various parameters was demonstrated. Further requests included the addition of a three-phase inverter model and an EMI filter, with the corresponding files and instructions provided. Finally, in response to requests for the addition of advanced features such as incorporating actual device models, evaluating the impact of DC link capacitors, and EMI analysis using a LISN, a model capable of more detailed simulations was provided. Overall, this article illustrates the gradual deepening of noise suppression studies through simulation.
August 4, 2025
Noise to Signal Simulating Inverter Fixes by Bee Technologies
August 3, 2025
Secondary battery model HILS implementation method by Bee Technologies
This paper describes a method for simulating SPICE models of secondary batteries, such as lithium-ion, lead-acid, and solid-state batteries, in real time in a hardware-in-the-loop simulation (HILS) environment. It details the process of deriving a state-space model from a SPICE equivalent circuit model and converting it into real-time executable difference equations. It then explains how to implement the model using an FPGA or microcontroller, converting it to fixed-point arithmetic, and ensuring real-time performance on the order of microseconds. It also touches on the design of a high-speed power output stage (power amplifier) for connecting to target devices such as battery management systems (BMS) and inverters, and techniques for accurately reproducing transient responses. Finally, it introduces existing battery HILS products from companies such as A&D and OPAL-RT, as well as similar examples from academic research, emphasizing the importance of development and verification in a safe and flexible environment.
Bee Technologies: Model-based development and SPICE usage examples
The Hidden Details Inside a Tech Design Review(about ZED-X20P) by Bee Technologies
The Hidden Details Inside a Tech Design Review(about ZED-X20P)
It details the results of the ZED-X20P design review and provides specific recommendations and warnings related to power, RF, V_Backup, USB, I2C/SPI, RESET_N, Safe Boot, and shielding. This includes component replacements, wiring instructions, and design considerations to ensure optimal performance and reliability. In particular, there is an important notice that the USB interface is not fully compliant with industry standards and is therefore not suitable for mass production. Overall, this document provides detailed technical guidance for addressing potential issues in module design and integration.