Abstract: In a power transmission device, a dynamic damper is provided in a power transmission path having at least one damper disposed therein, and has an inertial rotating body that can rotate relative to a transmission rotating member forming part of the power transmission path, and a dynamic damper spring that can provide connection between the transmission rotating member and the inertial rotating body. A preset load is applied to the dynamic damper spring in a non-transmitting state of the power transmission path. The dynamic damper spring is supported on either one of the transmission rotating member and the inertial rotating body so as to apply the preset load to the dynamic damper spring in the non-transmitting state, and a gap is set in a rotational direction in the non-transmitting state between the dynamic damper spring and an other one of the transmission rotating member and the inertial rotating body.

Abstract: In a power transmission device, a dynamic damper is provided in a power transmission path having at least one damper disposed therein, and has an inertial rotating body that can rotate relative to a transmission rotating member forming part of the power transmission path, and a dynamic damper spring that can provide connection between the transmission rotating member and the inertial rotating body. A preset load is applied to the dynamic damper spring in a non-transmitting state of the power transmission path. The dynamic damper spring is supported on either one of the transmission rotating member and the inertial rotating body so as to apply the preset load to the dynamic damper spring in the non-transmitting state, and a gap is set in a rotational direction in the non-transmitting state between the dynamic damper spring and an other one of the transmission rotating member and the inertial rotating body.

Abstract: According to one embodiment, a disk array control apparatus includes a volatile memory configured to temporarily store data sent or received by a disk array controller, a first power supply generation circuit configured to generate second power to drive the volatile memory from first power, a second power supply generation circuit configured to generate fourth power to drive the volatile memory from power having a higher voltage selected from the first power and third power supplied from a battery, a first switch configured to interpose in a path flowing the second power, a second switch configured to interpose in a path through which flowing the fourth power, and a power supply switching control unit includes a logic circuit which controls on/off switching of the first switch and the second switch based on a state of a initialization signal.

Abstract: A communication control apparatus for executing a data transfer process between an external network and an internal network, includes a first port connected to the internal network, a second port connected to the external network, a storage unit, a determining unit which determines whether or not information to specify an operation environment of the communication control apparatus relating to a data transfer process of network layer level is stored in the storage unit, and an executing unit which executes the data transfer process at the network layer level between the first port and the second port based on the information when the determining unit determinates that the information is stored in the storage unit and executes a data transfer process at data link layer level between the first port and the second port when the determining unit determinates that the information is not stored in the storage unit.