Clutch mechanism

What is claimed is: 1. A clutch mechanism comprising: a driving-side rotatable body that is rotated by a rotational drive force, which is outputted from a drive source; a driven-side rotatable body, to which the rotational drive force is transmitted from the driving-side rotatable body through coupling of the driven-side rotatable body to the driving-side rotatable body; a permanent magnet that generates an attracting magnetic circuit, which generates a magnetic force for coupling between the driving-side rotatable body and the driven-side rotatable body, and a non-attracting magnetic circuit, which is different from the attracting magnetic circuit; a movable member that is made of a magnetic material and is displaceable; and an electromagnetic coil that generates an electromagnetic force for displacing the movable member, wherein: when the driving-side rotatable body and the driven-side rotatable body are coupled with each other, the movable member is placed in a first position, at which a magnetic resistance of the attracting magnetic circuit is reduced in comparison to a magnetic resistance of the attracting magnetic circuit at a time of decoupling between the driving-side rotatable body and the driven-side rotatable body; and when the driving-side rotatable body and the driven-side rotatable body are decoupled from each other, the movable member is placed in a second position, at which a magnetic resistance of the non-attracting magnetic circuit is reduced in comparison to a magnetic resistance of the non-attracting magnetic circuit at a time of coupling between the driving-side rotatable body and the driven-side rotatable body; a first energization control arrangement that executes energization of the electromagnetic coil in such a manner that a magnetic force, which is generated from the non-attracting magnetic circuit, becomes larger than the magnetic force, which is generated from the attracting magnetic circuit, and thereby the movable member is displaced from the first position to the second position; a second energization control arrangement that executes energization of the electromagnetic coil in such a manner that the magnetic force, which is generated from the non-attracting magnetic circuit, becomes smaller than the magnetic force, which is generated from the attracting magnetic circuit, and thereby the movable member is displaced from the second position to the first position; a determining arrangement that determines whether the movable member has reached one of the first position and the second position; and an energization terminating arrangement that stops the energization of the electromagnetic coil when the determining arrangement determines that the movable member has reached the one of the first position and the second position. 2. The clutch mechanism according to claim 1 , wherein: the energization terminating arrangement includes: a first energization terminating arrangement that stops the energization of the electromagnetic coil when the determining arrangement determines that the movable member has reached the second position; and a second energization terminating arrangement that stops the energization of the electromagnetic coil when the determining arrangement determines that the movable member has reached the first position. 3. The clutch mechanism according to claim 2 , wherein: when a first time period elapses from a time of starting the energization of the electromagnetic coil by the first energization control arrangement, the determining arrangement determines that the movable member has reached the second position; and when a second time period elapses from a time of starting the energization of the electromagnetic coil by the second energization control arrangement, the determining arrangement determines that the movable member has reached the first position. 4. The clutch mechanism according to claim 3 , comprising: a capacitor that is connected between an electric power source and a ground; and a resistor element that is connected between the electric power source and the capacitor, wherein the first time period and the second time period are set by a time constant, which is determined by a capacitance of the capacitor and a resistance value of the resistor element. 5. The clutch mechanism according to claim 1 , wherein: the energization terminating arrangement, the first energization control arrangement, the second energization control arrangement, and the determining arrangement are formed by a control device; the clutch mechanism comprises a stator that is fixed to a housing, which rotatably supports the driven-side rotatable body, wherein the attracting magnetic circuit and the non-attracting magnetic circuit are formed by the stator; and the control device is placed at the stator. 6. The clutch mechanism according to claim 1 , wherein: the energization terminating arrangement, the first energization control arrangement, the second energization control arrangement, and the determining arrangement are formed by a control device; a housing, which rotatably supports the driven-side rotatable body, receives a compression mechanism, which draws, compresses and discharges refrigerant with a rotational force of the driven-side rotatable body, to form a compressor; and the control device is placed at the compressor. 7. The clutch mechanism according to claim 6 , wherein the control device is placed at an outer wall of the housing and is cooled by the refrigerant, which is drawn into the housing, through operation of the compression mechanism. 8. The clutch mechanism according to claim 1 , wherein the energization terminating arrangement, the first energization control arrangement, the second energization control arrangement, and the determining arrangement forms an on-vehicle electronic control device, which is installed in a vehicle cabin.