Insulating device and isolator

What is claimed is: 1 . An insulating device, comprising: a first inductor including a first coil layer located in a first plane, and including a third coil layer located in a second plane; a second inductor separated from the first inductor, the second inductor including a second coil layer located in the first plane, and including a fourth coil layer located in a third plane and electrically connected to the second coil layer, a central axis of the second coil layer being positioned inside the first coil layer; and an insulating layer located between the first inductor and the second inductor, wherein a central axis of the first coil layer extends in an axis direction, the second plane is separated from the first plane in the axis direction, the third plane is separated from the first plane in an opposite direction of the axis direction, the first plane is positioned between the second plane and the third plane, the third coil layer is electrically connected to the first coil layer, a turn direction of the first coil layer and a turn direction of the third coil layer are the same in a current path through the first inductor, a turn direction of the second coil layer and a turn direction of the fourth coil layer are the same in a current path through the second inductor, the second coil layer has a spiral shape with multiple turns, the fourth coil layer has a spiral shape with multiple turns, and an outer end portion of the second coil layer is electrically connected to an inner end portion of the fourth coil layer in the axis direction. 2 . The device according to claim 1 , wherein the first coil layer and the third coil layer partially overlap when viewed along the axis direction. 3 . The device according to claim 1 , wherein the first inductor further includes a first conductive member positioned between the first coil layer and the third coil layer and connected to the first coil layer and the third coil layer. 4 . The device according to claim 1 , wherein the third coil layer includes two adjacent portions in a cross section of the third coil layer, the cross section is parallel to a central axis of the third coil layer and includes the central axis of the third coil layer, and a distance between the first coil layer and the second coil layer is greater than a distance between the two adjacent portions of the third coil layer. 5 . The device according to claim 1 , wherein the second coil layer is positioned inside the first coil layer, and a distance between an outer end portion of the fourth coil layer and a central axis of the fourth coil layer is greater than a distance between an outer end portion of the third coil layer and a central axis of the third coil layer. 6 . The device according to claim 1 , wherein the first inductor further includes: a fifth coil layer located in the first plane and aligned with the first coil layer in a direction parallel to the first plane; a sixth coil layer located in the second plane and electrically connected to the fifth coil layer, a central axis of the sixth coil layer being positioned inside the fifth coil layer when viewed along the axis direction; and a first connection portion connected to the third and sixth coil layers, turn directions of the fifth and sixth coil layers are opposite to the turn directions of the first and third coil layers in the current path through the first inductor, the second inductor further includes: a seventh coil layer located in the first plane, a central axis of the seventh coil layer being positioned inside the fifth coil layer; an eighth coil layer located in the third plane and electrically connected to the seventh coil layer, a central axis of the eighth coil layer being positioned inside the seventh coil layer; and a second connection portion connected to the fourth and eighth coil layers, and turn directions of the seventh and eighth coil layers are opposite to the turn directions of the second and fourth coil layers in the current path through the second inductor. 7 . An isolator, comprising: the insulating device according to claim 1 ; a first circuit electrically connected to the first inductor; and a second circuit electrically connected to the second inductor, wherein one of the first circuit and the second circuit is a transmitting circuit, and another of the first circuit and the second circuit is a receiving circuit.