Optical apparatus, light emitting apparatus, optical cable, and method of connecting optical apparatus

1 . An optical apparatus comprising: a light emitting apparatus including a housing extending in a first direction, a light emitting device mounted in the housing, an optical connector including a first optical connection part provided at one end of the housing, the optical connector being optically coupled to the light emitting device, and an electrical connector including a first electrical connection part provided at one end of the housing, wherein the first electrical connection part is configured to receive a voltage to drive the light emitting device; and a host apparatus including a host optical connector including a second optical connection part configured to face the first optical connection part and be optically coupled to the first optical connection part when the light emitting apparatus is connected to the host apparatus, a host electrical connector including a second electrical connection part configured to face the first electrical connection part in a state in which the first optical connection part and the second optical connection part face each other and be electrically connected to the first electrical connection part, and a host board that mounts the host optical connector and the host electrical connector thereon, wherein the light emitting apparatus and the host apparatus are configured to be connected to each other. 2 . The optical apparatus according to claim 1 , wherein the host optical connector further includes a pair of first guide pins configured to position the host optical connector with respect to the optical connector when the light emitting apparatus is connected to the host apparatus, and a pair of second guide pins provided at positions at which the pair of first guide pins are sandwiched therebetween, the pair of second guide pins being configured to position the host optical connector with respect to the optical connector when the light emitting apparatus is connected to the host apparatus, and wherein the outer diameter of each of the second guide pins is larger than the outer diameter of each of the first guide pins, and the length from the second optical connection part to the tip end of the second guide pin is longer than the length from the second optical connection part to the tip end of the first guide pin. 3 . The optical apparatus according to claim 2 , wherein the optical connector further includes a first optical connection member including the first optical connection part, and a first holding member that holds the first optical connection member, wherein the host optical connector further includes a second optical connection member including the second optical connection part, and a second holding member that holds the second optical connection member, wherein the first guide pins are provided on the second optical connection member, and the second guide pins are provided on the second holding member, and wherein a pair of first guide holes into which the pair of first guide pins are inserted are provided in the first optical connection member, and a pair of second guide holes into which the pair of second guide pins are inserted are provided in the first holding member at positions at which the pair of first guide holes are sandwiched therebetween, and the inner diameter of each of the second guide holes is larger than the inner diameter of each of the first guide holes. 4 . The optical apparatus according to claim 3 , wherein the first optical connection part protrudes from the first holding member in the first direction, and the second optical connection part protrudes from the second holding member in the first direction. 5 . The optical apparatus according to claim 3 , wherein the second optical connection member is removable from the host optical connector in the first direction. 6 . The optical apparatus according to claim 3 , wherein the host optical connector further includes an elastic body configured to exert a force to the second optical connection member so that the second optical connection part protrudes further in the first direction than the second electrical connection part, and wherein the second holding member holds the second optical connection member via the elastic body, and the host electrical connector is fixed to the second holding member. 7 . The optical apparatus according to claim 6 , wherein the second optical connection member is held by the elastic body with a force of 3N or more to protrude from the second electrical connection part in the first direction while the second optical connection member is inserted into the host optical connector, wherein when the second optical connection member is removed from the host optical connector, at least the second optical connection member and the elastic body are integrally removed, and wherein the elastic body has a structure in which the elastic body is mountable on and removable from the second optical connection member and a first optical fiber held by the second optical connection member in a state in which the elastic body is removed from the host optical connector. 8 . The optical apparatus according to claim 1 , wherein the host apparatus further includes a first optical fiber attached to the host optical connector and optically coupled to the second optical connection part, and a wire connected to the second electrical connection part and provided on the host board, and wherein the host electrical connector is fixed to the host optical connector. 9 . The optical apparatus according to claim 1 , wherein the light emitting apparatus further includes a plurality of second optical fibers optically coupled to the light emitting device and the first optical connection part, and the first optical connection part is configured of a plurality of optical coupling parts arranged in a second direction intersecting the first direction and optically coupled to the plurality of second optical fibers, respectively. 10 . A light emitting apparatus comprising: a housing extending in a first direction; a light emitting device mounted in the housing; an optical connector including a first optical connection part provided at one end of the housing and configured to optically couple to an external optical path, the optical connector being coupled to the light emitting device; and an electrical connector including a first electrical connection part provided at one end of the housing and configured to receive a voltage to drive the light emitting device. 11 . An optical cable comprising: an optical fiber extending in a first direction; a host optical connector that holds the optical fiber in the first direction; and a host electrical connector attached to the host optical connector, wherein the host optical connector includes a second optical connection part provided at one end in the first direction and configured to receive light for transmitting to the optical fiber, and wherein the host electrical connector includes a second electrical connection part provided near the one end and configured to be electrically connected to an external electrical wire, and a third electrical connection part configured to be electrically connected to another external electrical wire in a second direction which is different from the first direction. 12 . A method for connecting a light emitting apparatus to a host apparatus, the method comprising: preparing the light emitting apparatus including a housing extending in a first direction, a light emitting device mounted in the housing, and an optical connector including a first optical connection part provided at one end of the housing, the optical connector being optical