DC-to-DC converter

What is claimed as new and desired to be secured by Letters Patent of the United States is: 1. A DC-to-DC converter comprising: an input terminal connected to a DC power source; an output terminal connected to a load; a reactor disposed between the input terminal and the output terminal; a blocking diode connected in series to the reactor; a single switch comprising one end connected between the reactor and the blocking diode; a boost chopper circuit configured to boost an input voltage so as to generate an output voltage; a first reactor disposed between the input terminal and the one end of the single switch; a first capacitor disposed between the first reactor and the single switch and connected in series to the first reactor; and a first diode comprising: an anode terminal connected to a connection portion at which the first reactor and the first capacitor are connected to each other; and a cathode terminal connected to the output terminal, wherein, when the single switch is in a conductive state, a current path is established in which current flows across the first capacitor and across the single switch. 2. The DC-to-DC converter according to claim 1 , further comprising a second diode connected in series to the first reactor. 3. The DC-to-DC converter according to claim 2 , further comprising a second reactor disposed between the blocking diode and the output terminal. 4. The DC-to-DC converter according to claim 3 , further comprising a snubber circuit configured to absorb a surge voltage between the blocking diode and the second reactor. 5. The DC-to-DC converter according to claim 4 , further comprising a controller configured to, when a value of a voltage across the snubber circuit becomes larger than a value of a voltage ripple that occurs in the second reactor when the single switch is off, control the snubber circuit to repeat cycles of absorption and release of the surge voltage, a period of each of the cycles being longer than an on-off period of the single switch. 6. The DC-to-DC converter according to claim 1 , wherein the connection portion at which the first reactor and first capacitor are connected to each other is included in the current path. 7. The DC-to-DC converter according to claim 1 , wherein the reactor, the blocking diode, and the single switch are included in the boost chopper circuit. 8. The DC-to-DC converter according to claim 1 , wherein the first capacitor has an end connected between the first reactor and the first diode. 9. The DC-to-DC converter according to claim 8 , wherein the first capacitor has another end connected to the single switch to switchably connect the first capacitor to a ground potential. 10. The DC-to-DC converter according to claim 1 , wherein the reactor and the first reactor are connected in parallel. 11. A DC-to-DC converter comprising: an input terminal connected to a DC power source; an output terminal connected to a load; a reactor disposed between the input terminal and the output terminal; a blocking diode connected in series to the reactor; a switching element comprising one end connected between the reactor and the blocking diode; a boost chopper circuit configured to boost an input voltage so as to generate an output voltage; a first reactor disposed between the input terminal and the one end of the switching element; a first capacitor disposed between the first reactor and the switching element and connected in series to the first reactor; a first diode comprising: an anode terminal connected to a connection portion at which the first reactor and the first capacitor are connected to each other; and a cathode terminal connected to the output terminal; and a second reactor disposed between the blocking diode and the output terminal, wherein, when the switching element is in a conductive state, a current path is established in which current flows across the first capacitor and across the switching element. 12. The DC-to-DC converter according to claim 11 , further comprising a snubber circuit configured to absorb a surge voltage between the blocking diode and the second reactor. 13. A DC-to-DC converter comprising: an input terminal connected to a DC power source; an output terminal connected to a load; a reactor disposed between the input terminal and the output terminal; a blocking diode connected in series to the reactor; a switching element comprising one end connected between the reactor and the blocking diode; a boost chopper circuit configured to boost an input voltage so as to generate an output voltage; a first reactor disposed between the input terminal and the one end of the switching element; a first capacitor disposed between the first reactor and the switching element and connected in series to the first reactor; a first diode comprising: an anode terminal connected to a connection portion at which the first reactor and the first capacitor are connected to each other; and a cathode terminal connected to the output terminal; a second reactor disposed between the blocking diode and the output terminal; a snubber circuit configured to absorb a surge voltage between the blocking diode and the second reactor; and a controller configured to, when a value of a voltage across the snubber circuit becomes larger than a value of a voltage ripple that occurs in the second reactor when the switching element is off, control the snubber circuit to repeat cycles of absorption and release of the surge voltage, a period of each of the cycles being longer than an on-off period of the switching element. 14. The DC-to-DC converter according to claim 13 , further comprising a second diode connected in series to the first reactor. 15. A DC-to-DC converter comprising: a booster configured to turn on and off a single switch to switch between accumulating, in a reactor, energy supplied from a DC power source and releasing the energy from the reactor so as to boost a voltage output from the DC power source, the single switch having one end connected between the reactor and a blocking diode, the blocking diode being connected in series with the reactor; and a voltage suppressor including a first reactor and a first capacitor, the first reactor being disposed between the input terminal and the one end of the single switch, the voltage suppressor configured to, at a turn-off time of the single switch, suppress a voltage across the single switch based on energy supplied from the DC power source when the single switch is on, wherein, when the single switch is on, a current path is established in which current flows from the first reactor, across the first capacitor, and across the single switch. 16. The DC-to-DC converter according to claim 15 , wherein the voltage suppressor includes a first diode having an anode terminal connected to a connection portion at which the first reactor and the first capacitor are connected to each other, and wherein the connection portion at which the first reactor and first capacitor are connected to each other is included in the current path. 17. The DC-to-DC converter according to claim 15 , further comprising: an output terminal; and a first diode having: an anode terminal connected to a connection portion at which the first reactor and the first capacitor are connected to each other; and a cathode terminal connected to the output terminal, wherein the first capacitor has an end connected between the first reactor and the first diode. 18. The DC-to-DC converter according to claim 17 , wherein the fi