Abstract: A vehicle system provides an excitation signal to an electrochemical system for use in Electrochemical Impedance Spectroscopy diagnostics. The electrochemical system is connectable to the vehicle system and the vehicle system includes a power stage, such as a charger, connectable to the electrochemical system for supplying electrical energy to the electrochemical system, and/or connectable to the electro-chemical system for withdrawing electrical energy from the electrochemical system, and an Excitation Generation Unit comprised by the power stage or operatively connected to the power stage. The Excitation Generation Unit is adapted for instructing the power stage to generate an excitation signal for use in the Electrochemical Impedance Spectroscopy diagnostics, and the power stage is adapted for generating the excitation signal and supplying the excitation signal to the electrochemical system when so instructed by the Excitation Generation Unit.

Abstract: The invention pertains to a method of determining the State of Health (SoH) and/or State of Charge (SoC) of a rechargeable battery during use of said battery, the method comprising the steps of: generating a first excitation signal within a first selected frequency range, generating a second excitation signal within a second selected frequency range, applying said first and second excitation signals on said rechargeable battery, measuring the response signal for each of said two excitation signals, and then calculate the Electrochemical Impedance (El) as the ratio between the excitation signals and respective response signals, and then determine the SoH and/or SoC of the rechargeable battery by comparing the calculated El to a circuit model for the battery and/or determining the SoH and/or SoC of the rechargeable battery by directly evaluating characteristics of the El. The invention also pertains to a battery management system configured for executing the steps of the method according to the invention.

Abstract: A vehicle system provides an excitation signal to an electrochemical system for use in Electrochemical Impedance Spectroscopy diagnostics. The electrochemical system is connectable to the vehicle system and the vehicle system includes a power stage, such as a charger, connectable to the electrochemical system for supplying electrical energy to the electrochemical system, and/or connectable to the electro-chemical system for withdrawing electrical energy from the electrochemical system, and an Excitation Generation Unit comprised by the power stage or operatively connected to the power stage. The Excitation Generation Unit is adapted for instructing the power stage to generate an excitation signal for use in the Electrochemical Impedance Spectroscopy diagnostics, and the power stage is adapted for generating the excitation signal and supplying the excitation signal to the electrochemical system when so instructed by the Excitation Generation Unit.

Abstract: The invention pertains to a method of determining the State of Health (SoH) and/or State of Charge (SoC) of a rechargeable battery during use of said battery, the method comprising the steps of: generating a first excitation signal within a first selected frequency range, generating a second excitation signal within a second selected frequency range, applying said first and second excitation signals on said rechargeable battery, measuring the response signal for each of said two excitation signals, and then calculate the Electrochemical Impedance (EI) as the ratio between the excitation signals and respective response signals, and then determine the SoH and/or SoC of the rechargeable battery by comparing the calculated EI to a circuit model for the battery and/or determining the SoH and/or SoC of the rechargeable battery by directly evaluating characteristics of the EI. The invention also pertains to a battery management system configured for executing the steps of the method according to the invention.