Disclosed are a jumper cable device and a jump start system. The jumper cable device includes a main body, and an input port, a first clamp and a second clamp connected to the main body, wherein the input port is configured to be connected with an external startup power source, and the first and second clamps are configured to be connected to a battery of a load, wherein the main body includes a housing and a control apparatus received within the housing, and the control apparatus is connected in circuit between the input port and the first and second clamps, and the input port is configured as a first connector, and wherein the first connector is connectable to a second connector of the startup power source in two directions.

Describes is a battery booster for jumpstarting a vehicle having an external battery. The battery booster comprising a set of electrical conductors, a power supply configured to supply a starting current to jump start the vehicle via the set of electrical conductors, a boost switch positioned in-line between the power supply and a set of battery clamps on one of the set of electrical conductors; and at least one processor configured to output a control signal to close the boost switch as a function of one or more parameters of the power supply, the external battery, or the vehicle. The set of electrical conductors are configured to couple with the external battery or with an engine that is electrically coupled with the external battery via the set of battery clamps. The set of electrical conductors comprises a positive electrical conductor and a negative electrical conductor. The power supply comprises a plurality of lithium battery cells arranged to form a lithium battery having a positive terminal and a negative terminal.

A hand held, portable jump starter device includes a housing having a multi-cell rechargeable battery including at least three battery cells connected in series, a USB input port for receiving a charging current from an external source to recharge the multi-cell rechargeable battery, and an output port for providing jump starting current to an external vehicle; a USB charge circuit connected to the USB input port, the USB charge circuit including a DC-to-DC converter circuit for upconverting an input voltage on the USB input port to a higher charging voltage for recharging the multi-cell rechargeable battery; a pair of series connected transistor devices coupled between the USB charge circuit and the multi-cell rechargeable battery for controlling current flow into and out of the multi-cell rechargeable battery; a control circuit for detecting the voltage of the multi-cell rechargeable battery and configured to turn off the USB charge circuit to prevent over charging of the multi-cell rechargeable battery if the detected voltage exceeds a threshold value; and a battery charge controller coupled to the multi-cell rechargeable battery and the pair of series connected transistor devices and configured to prevent over discharging of the multi-cell rechargeable battery.

A handheld device for jump starting a vehicle engine includes a rechargeable lithium ion battery pack and a microcontroller. The lithium ion battery is coupled to a power output port of the device through a FET smart switch actuated by the microcontroller. A vehicle battery isolation sensor connected in circuit with positive and negative polarity outputs detects the presence of a vehicle battery connected between the positive and negative polarity outputs. A reverse polarity sensor connected in circuit with the positive and negative polarity outputs detects the polarity of a vehicle battery connected between the positive and negative polarity outputs, such that the microcontroller will enable power to be delivered from the lithium ion power pack to the output port only when a good battery is connected to the output port and only when the battery is connected with proper polarity of positive and negative terminals.

A rechargeable battery jump starting device and a rechargeable battery assembly for use in the portable rechargeable battery jump starting device. The portable rechargeable battery jump starting device maximizes the power conducted from the rechargeable battery assembly to a battery being jump started.

A charging apparatus includes at least one housing including a compartment, an access door connected to the housing and covering the compartment, the access door being movable from an open position to a closed position, a releasable latching mechanism configured to latch the access door in the closed position, a charging terminal in the compartment, a voltage sensing terminal, and a door release circuit coupled to the voltage sensing terminal and to the releasable latching mechanisms and configured to sense a charging voltage applied to the voltage sensing terminal. The door release circuit is configured to selectively unlatch the releasable latching mechanism in response to a voltage within a predetermined voltage range being applied to the voltage sensing terminal.

This disclosure relates to a motor vehicle including remote terminals connected to battery so as to prevent electronic tampering, and a corresponding method. An example vehicle includes a battery with battery terminals. The vehicle further includes remote terminals electronically connected to the battery terminals so as to prevent electronic tampering with the battery via the remote terminals.

There is provided an information processing apparatus including a travelable information display unit that displays before a discharge, regarding motor-driven movable bodies of a discharge source and a discharge destination driven by using electric power of batteries, information about places to which the motor-driven movable body of the discharge source can move using electric power of the battery left after the discharge by assuming, when information about a discharge amount discharged from the battery of the motor-driven movable body of the discharge source toward the motor-driven movable body of the discharge destination that receives power supply is input, a case in which the discharge amount is discharged from the battery.

A compact battery monitoring system for monitoring a vehicle battery in a vehicle having an engine is described. The compact battery monitoring system may comprise a housing, a processor positioned within the housing, one or more sensors operatively coupled with said processor, a data port, a wireless data transceiver, and rechargeable lithium ion battery. The data port may be configured to removeably couple with a second data port positioned outside the housing to provide an electrical connection between the one or more sensors and the vehicle battery, wherein said processor is configured to monitor a parameter of the vehicle battery using said one or more sensors, yielding a monitored battery parameter. The wireless data transceiver within the housing is configured to wirelessly communicate the monitored battery parameter to a remotely situated, portable user device using, for example, ultra high frequency radio waves. A display device may be positioned on the housing, including a plurality of light emitting diodes. The rechargeable lithium ion battery is configured to supply power needed to operate the processor and the wireless data transceiver. When the engine is running, the battery monitoring system draws a charging current from the vehicle battery to charge the lithium ion battery.

A portable multi-industry jump starting system including a housing, a rechargeable battery enclosed within the housing, the rechargeable battery having sufficient power to provide a desired output power when reduced by a high current drain during jump starting operations, a multi-pin connector electrically attached to the battery and mounted in the housing for electrical connection to external system components or directly to equipment to be jump started, and a volt meter and volt meter activation switch mounted in the housing so as to be viewable at the multi-pin connector.