A reusable battery indicator includes a voltage sensor, a communication circuit communicatively connected to the voltage sensor, an antenna operatively coupled to the communication circuit, and a connector. The connector is electrically connected to the voltage sensor, and the connector is adapted to be removably connected to a battery, thereby providing an electrical connection between the voltage sensor and the battery. An electrical circuit is completed between the voltage sensor and the battery and the voltage sensor. The connection mechanism includes part of an electrical lock and key assembly.

Systems and methods for estimating a state of charge of a hearing aid rechargeable battery for rapid user feedback and charge management are provided. The method includes detecting a rechargeable battery of a hearing aid received at a battery charger. The method includes retrieving a last state of charge (SoC) of the rechargeable battery and a time in use of the rechargeable battery. The time in use is a time the hearing aid is out of the battery charger. The method includes estimating a current state of charge (SoC) of the rechargeable battery based on the last SoC and the time in use of the rechargeable battery. The method includes causing a display of the battery charger to present the estimated current SoC.

Processing circuitry associated with an implantable medical device (IMD) may store a value of a shared voltage as a battery voltage threshold. A shared voltage is a voltage magnitude at which the voltage curves for the population of batteries converge at a particular percent depth of discharge (% DoD). The shared voltage is a consistent voltage magnitude across the population of batteries. Based on the indication that the battery has reached the shared voltage, the processing circuitry may determine any or all of: the battery % DoD level, the amount, e.g., the percent of electrical energy remaining in the battery and the amount of time remaining before the battery reaches its end of service life. In some examples, the processing circuitry may output an elective replacement indicator based on the calculated amount of time remaining before the battery reaches its end of service life.

A battery management apparatus includes a battery information obtaining unit for obtaining a plurality of battery information for a plurality of battery cells; and a control unit for calculating a whisker for the plurality of battery information based on a criterion distribution profile for a population of the plurality of battery cells, generating a box plot for the plurality of battery cells based on the plurality of battery information and the calculated whisker, and determining a state of each of the plurality of battery cells according to whether each of the plurality of battery information is included in a threshold region corresponding to the generated box plot.

A voltage detection circuit includes a differential amplification circuit and a microcontroller unit (MCU). The MCU detects a differential voltage output from operational amplifiers of the differential amplification circuit, and calculates an internal resistance value of a battery cell based on the detected differential voltage. At this time, the MCU controls an amplification factor adjustment circuit of the differential amplification circuit based on a maximum voltage representing the highest voltage detectable by the MCU and the differential voltage output from the differential amplification circuit so as to set the amplification factor of the operational amplifiers.

A surgical stapling device includes a handle assembly, an adapter assembly, and a reload assembly that is releasably secured to the adapter assembly to facilitate replacement of the reload assembly after each use of the stapling device. The reload assembly includes an authentication chip and printed circuit board assembly that is constructed to provide electrical contacts that are self-supporting to allow for automated assembly of the electrical contacts and provide a more reliable, robust electrical connection between the electrical contacts and the chip.

A surgical stapling device includes a handle assembly, an adapter assembly, and a reload assembly that is releasably secured to the adapter assembly to facilitate replacement of the reload assembly after each use of the stapling device. The reload assembly includes an authentication chip and printed circuit board assembly that is constructed to provide electrical contacts that are self-supporting to allow for automated assembly of the electrical contacts and provide a more reliable, robust electrical connection between the electrical contacts and the chip.

A voltage detection circuit including a voltage input terminal, a voltage dividing circuit, a voltage comparison circuit, an output terminal, a detection voltage adjustment terminal, a voltage-current conversion circuit, and a constant current source. A voltage to be monitored is input to the voltage input terminal. The voltage dividing circuit includes series resistors between the voltage input terminal and a constant voltage terminal. The voltage comparison circuit compares a voltage divided by the voltage dividing circuit with a predetermined voltage. The comparison result is output from the output terminal. An external resistor is connected to the detection voltage adjustment terminal. The voltage-current conversion circuit is provided between the detection voltage adjustment terminal and the voltage dividing circuit. The constant current source is connected between an internal power supply voltage terminal and the detection voltage adjustment terminal.

A voltage detection circuit including a voltage input terminal, a voltage dividing circuit, a voltage comparison circuit, an output terminal, a detection voltage adjustment terminal, a voltage-current conversion circuit, and a constant current source. A voltage to be monitored is input to the voltage input terminal. The voltage dividing circuit includes series resistors between the voltage input terminal and a constant voltage terminal. The voltage comparison circuit compares a voltage divided by the voltage dividing circuit with a predetermined voltage. The comparison result is output from the output terminal. An external resistor is connected to the detection voltage adjustment terminal. The voltage-current conversion circuit is provided between the detection voltage adjustment terminal and the voltage dividing circuit. The constant current source is connected between an internal power supply voltage terminal and the detection voltage adjustment terminal.

A battery management system (BMS) for a vehicle includes a module for estimating the state of a rechargeable battery, such as its state of charge, in real time. The module includes a learning model for predicting the state of a battery based on the vehicle's usage and related factors unique to the vehicle, in addition to a sensed voltage, current and temperature of a battery.