Abstract: A battery system includes: a battery cell; and a temperature sensing array disposed on a surface of the battery cell, the temperature sensing array including: a conducting strip; and a plurality of temperature sensors connected in series with the conducting strip such that current flowing through the conducting strip flows through each of the temperature sensors, where each of the plurality of temperature sensors has at least one characteristic that varies in accordance with temperature, where the plurality of temperature sensors is distributed in different locations across the surface of the battery cell, and where an output current of the temperature sensing array varies in accordance with a change in temperature in any of the different locations.

Abstract: A quality control system in a battery manufacturing process includes two or more capacitive measurement apparatuses to obtain a capacitance measurement from two or more intermediate products generated during the battery manufacturing process. The system also includes processing circuitry to obtain the capacitive measurement from the two or more capacitive measurement apparatuses, to determine a characteristic of the corresponding intermediate product, and to control at least one process of the battery manufacturing process that produced at least one of the two or more intermediate products based on the characteristic.

Abstract: A battery cell comprises a battery cell enclosure made of a non-metallic material. First battery terminals arranged in the battery cell enclosure. Second battery terminals arranged in the battery cell enclosure. Electrolyte is located between the first battery terminals and the second battery terminals. C conductive portions are arranged adjacent to an outer surface of the battery cell enclosure, where C is an integer greater than zero.

Abstract: A quality control system in a battery manufacturing process includes two or more capacitive measurement apparatuses to obtain a capacitance measurement from two or more intermediate products generated during the battery manufacturing process. The system also includes processing circuitry to obtain the capacitive measurement from the two or more capacitive measurement apparatuses, to determine a characteristic of the corresponding intermediate product, and to control at least one process of the battery manufacturing process that produced at least one of the two or more intermediate products based on the characteristic.

Abstract: Aspects of the disclosure include leveraging an X-ray fluorescence (XRF) mapping of copper current collectors for non-contact, non-destructive, in-line quality inspections of thin lithium metal anodes. An exemplary method can include receiving an electrode at a detection surface of the XRF detector. The electrode can include the lithium anode on a surface of a current collector. X-rays are passed through the lithium anode and into the current collector and the intensity of characteristic radiation returning from the current collector is measured at the XRF detector. A lithium anode characteristic can be inferred based on the measured intensity of characteristic radiation from the current collector.