An electric work machine according to one aspect of the present disclosure includes a motor, a first connector, a second connector, an energizing circuit, a manual switch, and a controller. The controller outputs a first control signal to the energizing circuit to electrically connect the first connector to the motor, increases an actual rotational speed of the motor at a first rate, outputs the first control signal to the energizing circuit to electrically connect the second connector to the motor, and increases the actual rotational speed at a second rate. The second rate is less than the first rate.

A system comprising a high voltage (HV) bank section using energy storage devices arranged into one or more banks, an inductive device coupling the HV bank to a service voltage (SV) bank section and load through a charging circuit charging the SV bank from a more fully charged bank until the charging bank is depleted, and a switch switching, from the depleted bank to the other bank to charge the SV bank. The charging circuit then charging the depleted bank by a power supply as the other HV bank charges the SV bank. A supervisory controller controls the switch to repeat discharging and charging between the two banks for a defined period. The energy storage devices may be supercapacitors capable of storing energy on the order of 1 to 10 MegaJoules, and the inductive device may be a high-inductance, toroidal multifilar inductor.

A power tool including a battery pack interface configured to receive a battery pack. The battery pack interface includes one or more power terminals and one or more communication terminals. The power tool further includes a controller having an electronic processor. The controller is configured to receive, via the one or more communication terminals, a plurality of signals indicating a plurality of temperatures of the battery pack. The controller is further configured to determine, based on the signals, a battery pack type. The controller is further configured to control discharge of the battery pack based on the battery pack type.

The exemplified systems and methods provide fixed and exchangeable energy storage and delivery system in an electrified vehicle architecture with multi-mode controls. The exchangeable energy storage are configured to be optional and ultra-portable. The integration of fixed and exchangeable energy storage provides a vehicle configuration that is further optimized for size, weight, and convenience.

For indicating that a battery is fully discharged to a decommissioned state, methods, apparatus, and systems are disclosed. One apparatus includes a battery that powers an electronic device, a battery state module that comprises a non-reversible indicator, a control module coupled to the battery, and a decommission module. The decommission module receives a discharge signal from the control module and discharges the battery to a fully discharged state, where discharging the battery causes the non-reversible indicator to indicate the fully discharged state.

A system and method for controlling a renal therapy device is provided. The system comprises a controller for performing a method comprising: receiving a first power level of a first battery to determine if the first power level of the first battery is above a threshold value and receiving a second power level of a second battery to determine if the second power level of the second battery is above the threshold value. When the first power level is above the threshold value, the controller causes the renal therapy device to be powered by the first battery. When the first power level is below the threshold value, and the second power level is above the threshold value, the controller causes the renal therapy device to be powered by the second battery. The first battery is electrically isolated from the second battery.

A method of providing a single structure multiple mode antenna is described. The antenna is preferably constructed having a first inductor coil that is electrically connected in series with a second inductor coil. The antenna is constructed having a plurality of electrical connections positioned along the first and second inductor coils. A plurality of terminals is connected to the electrical connections that facilitate numerous electrical connections and enables the antenna to be selectively tuned to various frequencies and frequency bands.

The invention relates to electric solar trackers powered by rechargeable power sources, such as rechargeable batteries and how the solar tracker is fed in order to operate. The object of the invention embraces a system and a method for operating a solar tracker mainly fed by rechargeable power sources, powered by a main power supply fed by electricity produced by a solar panel associated to the solar tracker and operated by the latter. A controller is furnished with a set of instructions aimed to manage a power flow feeding the rechargeable power sources and the operating modes for the solar tracker, either fed by the main power supply or by the rechargeable power sources.

An apparatus and method for managing power supplied to a portable electrical device includes an electrical connector configured to engage a complementary electrical connector of the respective battery. The portable battery-powered device also includes a selector switch configured to couple the electrical connectors of the plurality of power receptacles in at least one of a series configuration, a parallel configuration, and a combination of series and parallel configuration. The portable battery-powered device further includes an electrical load device including one or more electrical leads coupled to the selector switch. The selector switch is selectable during operation of the portable battery-powered device to provide power to the electrical device from a plurality of battery packs coupled in the at least one of a series configuration, a parallel configuration, and a combination of series and parallel configuration.

A method of providing a single structure multiple mode antenna is described. The antenna is preferably constructed having a first inductor coil that is electrically connected in series with a second inductor coil. The antenna is constructed having a plurality of electrical connections positioned along the first and second inductor coils. A plurality of terminals is connected to the electrical connections that facilitate numerous electrical connections and enables the antenna to be selectively tuned to various frequencies and frequency bands.