Abstract: Automated systems and methods remove water from a fuel cell powered vehicle and eliminate the need for one or more separate steps to discharge the water. The water may be simultaneously drained or discharged from the vehicle holding tank while the fuel cell powered vehicle is being refueled.

Abstract: Operation of an industrial vehicle, such as one that lifts and transports loads, is controlled based on the weight of a removable battery. A control method involves reading a battery weight value from an electronic memory attached to a battery. That battery weight value is compared to a specified battery weight value for the industrial vehicle. The operation of the industrial vehicle is restricted to less than the normal operating characteristics when the battery weight value is less than the specified battery weight value. For example, the height to which a load can be raised is limited or the speed at which the industrial vehicle is limited when a battery installed on the industrial vehicle weighs less than the specified battery weight for effectively counterbalancing a load.

Abstract: A plurality of rechargeable and removable batteries are allocated to a plurality of industrial vehicles based on the power delivery capability of each battery and the intensity level at which each vehicle is operated. One of a plurality of ratings is assigned to each industrial vehicle, wherein a rating denotes an operating intensity level. The actual capacity of each battery is measured. A given battery is installed on a particular industrial vehicle in response to the relationship between the rating assigned to that industrial vehicle and the actual capacity of the given battery. Batteries with greater actual capacity are installed on industrial vehicles that are used more intensively. When a battery ages and its actual capacity diminishes, that battery is installed on less intensively used industrial vehicles.

Abstract: A system and method that maintains the dynamic stability of a material handling vehicle having a vertical lift. The method allows static vehicle properties, such as vehicle weight, wheelbase length, and wheel configuration, and dynamic operating parameters, such as vehicle velocity, floor grade, lift position, and load weight, to be accounted for when maintaining the dynamic stability of a moving material handling vehicle. The method may include calculating and predicting center-of-gravity parameters, wheel loads, and projected force vectors multiple times a second and adjusting vehicle operating parameters in response thereto to maintain vehicle stability.

Abstract: A plurality of rechargeable and removable batteries are allocated to a plurality of industrial vehicles based on the power delivery capability of each battery and the intensity level at which each vehicle is operated. One of a plurality of ratings is assigned to each industrial vehicle, wherein a rating denotes an operating intensity level. The actual capacity of each battery is measured. A given battery is installed on a particular industrial vehicle in response to the relationship between the rating assigned to that industrial vehicle and the actual capacity of the given battery. Batteries with greater actual capacity are installed on industrial vehicles that are used more intensively. When a battery ages and its actual capacity diminishes, that battery is installed on less intensively used industrial vehicles.

Abstract: Deterioration of a cable, that connects a battery to an industrial vehicle, is detected by an electronic controller. An electrical parameter, such as voltage, is measured proximate to a connection of the cable to the battery, thereby producing a first measurement. The same electrical parameter also is measured proximate to a connection of the cable to the industrial vehicle, thereby producing a second measurement. The first and second measurements are received at the electronic controller which uses those measurements to produce an indication of deterioration of the cable.

Abstract: Operation of an industrial vehicle, such as one that lifts and transports loads, is controlled based on the weight of a removable battery. A control method involves reading a battery weight value from an electronic memory attached to a battery. That battery weight value is compared to a specified battery weight value for the industrial vehicle. The operation of the industrial vehicle is restricted to less than the normal operating characteristics when the battery weight value is less than the specified battery weight value. For example, the height to which a load can be raised is limited or the speed at which the industrial vehicle is limited when a battery installed on the industrial vehicle weighs less than the specified battery weight for effectively counterbalancing a load.

Abstract: Automated systems and methods remove water from a fuel cell powered vehicle and eliminate the need for one or more separate steps to discharge the water. The water may be simultaneously drained or discharged from the vehicle holding tank while the fuel cell powered vehicle is being refueled.

Abstract: A system and method that maintains the dynamic stability of a material handling vehicle having a vertical lift. The method allows static vehicle properties, such as vehicle weight, wheelbase length, and wheel configuration, and dynamic operating parameters, such as vehicle velocity, floor grade, lift position, and load weight, to be accounted for when maintaining the dynamic stability of a moving material handling vehicle. The method may include calculating and predicting center-of-gravity parameters, wheel loads, and projected force vectors multiple times a second and adjusting vehicle operating parameters in response thereto to maintain vehicle stability.