Abstract: An electronic battery tester for testing a storage battery includes test circuitry configured to provide an output based upon a selected test criteria. Additionally, circuitry is provided to assist in balancing batteries used in a string of multiple batteries.

Abstract: An automotive vehicle electrical system diagnostic apparatus includes first and second electrical connections configured to electrically couple to an electrical system of an automotive vehicle which includes a battery. Digital samples are obtained during operation of the vehicle which are related to the system. The digital samples are stored in memory.

Abstract: An electronic battery tester for testing a storage battery. The tester includes a first connector configured to electrically couple to a first terminal of the battery via a first battery post adapter and a second connector configured to electrically couple to a second terminal of the battery via a second battery post adapter. The tester also includes an input configured to receive a battery-post-adapter-connection indicator. Test circuitry, which is coupled to the input, upon receipt of the battery-post-adapter-connection indicator, determines whether or not the first battery post adapter and the second battery post adapter are faulty.

Abstract: A clamp that is capable of attaching to a battery post and also to a female receptacle terminal. The clamp includes a post-grasping portion that is capable of attaching to the battery post. The clamp also includes a male plug feature that is configured to fit into a female receptacle terminal.

Abstract: A battery monitoring system (BMS), which utilizes a minimum amount of input data (time, voltage, current, temperature and conductance, for example) to periodically determine a vehicle battery status or condition is provided. The BMS combines electronic hardware and software to give logical and critical data to assess and control a battery-based electrical system. The BMS can include processing circuitry (a microprocessor, for example), which is coupled to a voltage sensor, a current sensor, a temperature sensor, etc., that provide the necessary input data for the microprocessor, which executes program code, to determine the vehicle battery status or condition. A method of monitoring a battery in an operating vehicle is also provided.

Abstract: An electronic battery tester or charger for use with a storage battery includes a first and a second electrical connector configured to electrically couple to terminals of the storage battery. Circuitry operates on the storage battery. OBD communication circuitry is configured to couple to an OBD databus of a vehicle. The operation of the circuitry is a function of communication on the OBD databus.

Abstract: A method and apparatus for coupling a battery charger and/or a battery tester to a battery is provided. A clamp can be selectively removed from a cable. This allows replacement of the clamp as desired as well as fixedly or removably coupling the cable to the battery tester or charger.

Abstract: An electronic battery tester for testing a storage battery includes a first and a second electrical connector configured to electrically couple to terminals of the storage battery. Measurement circuitry tests the storage battery and generate a battery test result. OBD communication circuitry provides an OBD output signal in accordance with an OBD communication standard related to the battery test result. An OBD connector is configured to couple to an OBD compliant automotive vehicle scan tool.

Abstract: A method and apparatus for simulating a battery tester with a fixed resistance load, such as a widely used Japanese load tester that rates the strength of Japanese batteries that are categorized under the Japanese Industrial Standard (JIS), are provided. This invention simulates such a device without invoking large current loads, yields familiar results, utilizes an existing database and provides more conclusive testing. The method includes estimating a battery load test voltage as a function of a measured battery dynamic parameter, an open circuit voltage, the load resistance value of the load tester and the battery temperature. A bounceback voltage (BBV) of the battery is also predicted. The BBV, load voltage and battery temperature are utilized to rate the strength of the battery. Also, to improve the accuracy of test results for a substantially discharged battery, one embodiment projects the results of recharging discharged batteries without actually doing so.

Abstract: A method that includes affixing a radio frequency identification tag on a storage battery at a battery manufacturing plant. The method also includes storing battery manufacturing information into the radio frequency identification tag at the battery manufacturing plant. The battery manufacturing information includes a battery algorithm suitable for use in testing the storage battery.

Abstract: A combined sensing and reading apparatus. The apparatus includes a tag reader and an environment sensor integrated with the tag reader. A battery maintenance tool that includes a tag reader and an environment sensor integrated with the tag reader is also provided. Examples of a battery maintenance tool include a battery tester and a battery charger.

Abstract: A simplified inventory management method. The method employs a plurality of stock-keeping unit labels, with each of the plurality of stock-keeping unit labels having a same stock-keeping unit number. Individual ones of the plurality of stock-keeping unit labels are utilized to track individual items of a plurality of items. A sale price of individual ones a first set of the plurality of items is different from a sale price of individual ones of a second set of the plurality of items.

Abstract: An electronic battery tester for testing a storage battery includes test circuitry configured to provide an output based upon a selected test criteria. Additionally, circuitry is provided to assist in balancing batteries used in a string of multiple batteries.

Abstract: A cable for connecting to an electronic battery tester, includes a first end configured to couple to a databus of a vehicle and a second end configured to couple to the electronic battery tester. An electrical connection extends between the first end and the second end and is configured to couple the electronic battery tester to the databus of the vehicle.

Abstract: A method and apparatus for testing a storage battery is provided in which a battery is measured to obtain a battery dynamic parameter value such as conductance. The battery is measured to obtain an open circuit voltage, a resistance and a recovery voltage differential. A condition of the battery is determined as a function of the measured battery dynamic parameter, the open circuit voltage and the recovery voltage differential.

Abstract: A storage battery includes a battery housing and a plurality of electrochemical cells in the battery housing electrically connected to terminals of the battery. A battery test module is mounted to the battery housing and electrically coupled to the terminals through Kelvin connections. A display or other output is configured to output battery condition information from the battery test module. The battery test module is configured to automatically carry out a battery test when a voltage across the battery falls below a predetermined threshold.

Abstract: An apparatus and method for supplying energy to a vehicle battery is provided. The apparatus includes a positive connector that couples to a positive terminal of the vehicle battery and a negative connector that couples to a negative terminal of the vehicle battery. A battery charger applies a charge signal to the vehicle battery through the positive and negative connectors to thereby charge the vehicle battery. A jump-start booster pack, coupled to the battery charger, can optionally provide starting energy to the vehicle battery through the positive and negative connectors. The booster pack can be charged by the charge signal. In one aspect, the battery charger is a switch-mode charger.

Abstract: Methods and systems are provided for monitoring replacing of a previously purchased storage battery with a replacement storage battery. A battery tester is coupled to the replacement storage battery. A replacement storage battery identifier is entered into the battery tester that identifies the replacement storage battery. The battery tester performs a battery test on the replacement storage battery. A replacement battery test code is generated using the battery test and the replacement storage battery identifier. The replacement battery test code is communicated to a centralized database. The replacement battery test code is associated with a battery test code related to the previously purchased storage battery in the centralized database.

Abstract: A system for counteracting self-discharge in a storage battery is provided. The system includes a charge supply battery that provides a supply voltage. The system also includes a DC-DC converter circuit that has an input that electrically couples to the charge supply battery and an output that electrically couples to terminals of the storage battery. The DC-DC converter circuit provides a charging voltage at the output that has a magnitude greater than a magnitude of the supply voltage. The storage battery is a carbon battery.

Abstract: A cable for connecting to an electronic battery tester, includes a first end configured to couple to a databus of a vehicle and a second end configured to couple to the electronic battery tester. An electrical connection extends between the first end and the second end and is configured to couple the electronic battery tester to the databus of the vehicle.