Relay apparatus having plurality of relays and relay system incorporating the relay apparatus

What is claimed is: 1. A relay apparatus, comprising: a first relay, the first relay comprising: a first electromagnetic coil; a first movable magnetic member; a first electromagnetic coil; and a first contact switch, the first contact switch being set to a predetermined one of a conducting condition and a non-conducting condition by a magnetic flux produced by the first electromagnetic coil acting on the first movable magnetic member; a second relay, the second relay comprising: a second electromagnetic coil; a second movable magnetic member; and a second contact switch, the second contact switch being set to a predetermined one of the conducting condition and non-conducting condition by a magnetic flux produced by the second electromagnetic coil acting on the second movable magnetic member; a yoke, the yoke being configured to partially surround each of the first electromagnetic coil and the second electromagnetic coil; a first magnetic circuit extending around the first electromagnetic coil and through a first core and the yoke, the relay apparatus being operable for producing a flow of a first magnetic flux via the first magnetic circuit by passing a current through the first electromagnetic coil; a second magnetic circuit extending around the second electromagnetic coil and through a second core and the yoke, the relay apparatus being operable for producing a flow of a second magnetic flux via the second magnetic circuit by passing a current through the second electromagnetic coil; and a third magnetic circuit extending successively through the first core, the yoke, and the second core, the relay apparatus being operable for producing a flow of a third magnetic flux via a third magnetic circuit by passing respective currents concurrently through the first electromagnetic coil and the second electromagnetic coil, wherein the yoke comprises a magnetic flux restriction portion formed to restrict the flow of magnetic flux via the third magnetic circuit. 2. The relay apparatus of claim 1 wherein the relay apparatus is operable for being set in a condition whereby the first contact switch and the second contact switch are respectively in the conducting condition, by passing a first current and a second current respectively through the first electromagnetic coil and the second electromagnetic coil, and respective flow directions of the first current and the second current are predetermined for rendering respective directions of a flow of flux produced by the first electromagnetic coil through the third magnetic circuit and of a flow of flux produced by the second electromagnetic coil through the third magnetic circuit mutually identical. 3. The relay apparatus of claim 1 wherein the relay apparatus is operable for being set in a condition whereby the first contact switch is in the conducting condition and the second contact switch is in the non-conducting condition, by passing a first current and a second current respectively through the first electromagnetic coil and the second electromagnetic coil, and respective flow directions of the first current and the second current are predetermined for rendering respective directions of a flow of flux produced by the first electromagnetic coil through the third magnetic circuit and of a flow of flux produced by the second electromagnetic coil through the third magnetic circuit mutually opposite. 4. The relay apparatus of claim 1 , wherein the magnetic flux restriction portion comprises at least one portion of the yoke, formed with a smaller cross-sectional area than remaining portions of the yoke. 5. A relay system comprising: the relay apparatus of claim 1 ; a first electric power source; and a relay control circuit comprising a plurality of switching devices respectively connected to the first electromagnetic coil and second electromagnetic coil and to the first electric power source, the relay control circuit being configured to control the switching devices for successively establishing: a first connection condition, in which only the first electromagnetic coil is connected in parallel with the first electric power source, a second connection condition, in which both of the first electromagnetic coil and the second electromagnetic coil are connected in parallel with the first electric power source, and a third connection condition, in which the first electromagnetic coil and the second electromagnetic coil are connected in series and the series-connected first electromagnetic coil and second electromagnetic coil are connected in parallel with the first electric power source. 6. The relay system of claim 5 , wherein the relay control circuit comprises a first switching device, connected to the first electromagnetic coil and operable for connecting/disconnecting the first electromagnetic coil to/from the first electric power source, a second switching device, connected to the second electromagnetic coil and operable for connecting/disconnecting the second coil to/from the first electric power source, and a third switching device, connected to each of the first electromagnetic coil and the second electromagnetic coil, and operable for connecting/disconnecting the first electromagnetic coil and the second electromagnetic coil to/from a condition of being connected in series to the first electric power source. 7. The relay system of claim 5 , controllable for selectively enabling/interrupting supplying of electric power from a second electric power source to an electrical load via a first supply lead and a second supply lead, wherein the first contact switch is connected in series with the first supply lead and the second contact switch is connected in series with the second supply lead. 8. The relay system of claim 5 , wherein the second electromagnetic coil is configured to produce a smaller value of magnetizing force than is produced by the first electromagnetic coil when both of the first electromagnetic coil and the second electromagnetic coil are connected in parallel with an electric power source. 9. The relay system of claim 5 , comprising a current sensor for detecting a flow of current through a specific one of the first supply lead and the second supply lead, wherein the relay control circuit is operable for executing a failure test procedure for detecting a failure condition of at least one of the first contact switch and the second contact switch, and the detection of the failure condition is based upon detection results obtained from the current sensor. 10. The relay system of claim 9 wherein the relay control circuit is configured to execute the failure test procedure by steps of controlling the plurality of switching elements to set each of the first contact switch and the second contact switch to the non-conducting condition, and judging whether a current flow is detected by the current sensor, controlling the plurality of switching elements to set only a first one of the first contact switch and the second contact switch to the conducting condition, and judging whether a current flow is detected by the current sensor, and controlling the plurality of switching elements to set only a second one of the first contact switch and the second contact switch to the conducting condition, and judging whether a current flow is detected by the current sensor. 11. The relay system of claim 5 further comprising: a smoothing capacitor connected between the first supply lead and the second supply lead; a third relay having a third contact switch and a third coil; a fourth switching device connected to the third coil; and a current limiting resistor connected to one of the supply leads via the third con