Battery pack and battery pack apparatus

What is claimed is: 1. A battery pack comprising: battery cells; bus bars configured to provide electrical connection among the battery cells; a holder that holds the bus bars; a cover which defines a passage along with the holder through which a heat transfer medium passes; a fluid device that is configured to create a flow of the heat transfer medium in said passage to transfer heat generated by the bus bars or the battery cells to the heat transfer medium and a control device that is configured to obtain data on at least one of the bus bars and the battery cells and control the fluid device based on the obtained data, wherein the bus bars are exposed to the passage, the fluid device is provided in the cover, and the control device includes a circuit and is disposed in and attached to the cover to have the circuit exposed to the flow of the heat transfer medium to transfer heat generated by the circuit to the heat transfer medium. 2. A battery pack comprising: battery cells; bus bars configured to provide electrical connection among the battery cells; a holder that holds the bus bars, wherein the holder defines a passage, along with an adjacent wall, through which a heat transfer medium passes; a fluid device that is configured to create a flow of the heat transfer medium in said passage to transfer heat generated by the bus bars or the battery cells to the heat transfer medium; and a control device that is configured to obtain data on at least one of the bus bars and the battery cells and control the fluid device based on the obtained data, wherein the bus bars are exposed to the passage, the fluid device is provided in and attached to the holder, and the control device includes a circuit and is disposed in and attached to the holder to have the circuit exposed to the flow of the heat transfer medium to transfer heat generated by the circuit to the heat transfer medium. 3. The battery pack according to claim 1 , wherein the battery pack includes a joint part disposed between the fluid device and the control device, the joint part being configured to suppress vibration transmission from the fluid device to the control device. 4. The battery pack according to claim 3 , wherein the joint part is deformable. 5. A battery system comprising: a battery pack including a plurality of battery modules each including battery cells; an electrical load connected to the battery pack; and a battery control unit communicably connected to each of the battery modules to be individually controlled by the battery control unit, the battery control unit being configured to control the battery pack to supply power to the electrical load; wherein each of the battery modules includes: a fan that creates an air flow flowing through the battery cells, thereby cooling the battery cells; and a control device that obtains data from the battery cells and controls the fan based on the obtained data, wherein the battery pack comprises: bus bars configured to provide electrical connection among the battery cells; a holder that holds the bus bars; a cover which defines a passage along with the holder through which a heat transfer medium passes; the fan is configured to create a flow of the heat transfer medium in said passage to transfer heat generated by the bus bars or the battery cells to the heat transfer medium; and the control device is configured to obtain data on at least one of the bus bars and the battery cells and control the fan based on the obtained data, wherein the bus bars are exposed to the passage, the fan is provided in the cover; and the control device includes a circuit and is disposed in the cover to have the circuit exposed to the flow of the heat transfer medium to transfer heat generated by the circuit to the heat transfer medium. 6. A battery system comprising: a battery pack including a plurality of battery modules each including battery cells; an electrical load connected to the battery pack; and a battery control unit communicably connected to each of the battery modules to be individually controlled by the battery control unit, the battery control unit being configured to control the battery pack to supply power to the electrical load; wherein each of the battery modules includes: a fan that creates an air flow flowing through the battery cells, thereby cooling the battery cells; and a control device that obtains data from the battery cells and controls the fan based on the obtained data, wherein the battery pack comprises: bus bars configured to provide electrical connection among the battery cells; a holder that holds the bus bars, wherein the holder defines a passage, along with an adjacent wall, through which a heat transfer medium passes; the fan is configured to create a flow of the heat transfer medium in said passage to transfer heat generated by the bus bars or the battery cells to the heat transfer medium; and the control device is configured to obtain data on at least one of the bus bars and the battery cells and control the fan based on the obtained data, wherein the bus bars are exposed to the passage, the fan is provided in and attached to the holder and the control device includes a circuit and is disposed in the holder to have the circuit exposed to the flow of the heat transfer medium to transfer heat generated by the circuit to the heat transfer medium.