Direct current breaker feeding an inverter

What is claimed is: 1. A breaker apparatus, comprising: a controller; a first branch, comprising an overcurrent-automatic-disconnection unit and a first current limiting unit that are connected in series, wherein the overcurrent-automatic-disconnection unit is configured to be automatically disconnected when a current flowing through the overcurrent-automatic-disconnection unit exceeds a breaking current threshold, and wherein the first current limiting unit is configured to limit a current on the first branch; a second branch, connected in parallel to the first branch and comprising a first controllable switch unit, wherein the first controllable switch unit includes a control terminal connected to the controller, and is configured to be open or closed under control of the controller; wherein the controller is connected to the control terminal of the first controllable switch unit, and a protected circuit, and is configured to: (1) when the protected circuit operates normally, close the first controllable switch unit, (2) when a fault occurs in the protected circuit, open the first controllable switch unit, and (3) when a voltage value at two ends of the first branch meets a preset condition, alternatively open and close the first controllable switch unit to clean the first controllable switch unit; and wherein the breaker apparatus is connected in series in the protected circuit, and configured to disconnect an electrical connection when a fault occurs in the protected circuit. 2. The breaker apparatus according to claim 1 , wherein the controller is connected to the first branch, and further configured to close the first controllable switch unit when the protected circuit is powered on and a voltage value at the two ends of the first branch is less than a preset voltage value. 3. The breaker apparatus according to claim 1 , wherein the first controllable switch unit is any one or any series or parallel combination of the following: a relay, a contactor, and a semiconductor switch. 4. The breaker apparatus according to claim 1 , wherein the first current limiting unit is any one or any series or parallel combination of the following: a resistor, a diode, a positive temperature coefficient PTC thermistor, and a negative temperature system NTC thermistor. 5. The breaker apparatus according to claim 1 , wherein the overcurrent-automatic-disconnection unit is any one or any series or parallel combination of the following: a circuit breaker and a fuse. 6. A breaker apparatus, comprising: a controller; a first branch, comprising an overcurrent-automatic-disconnection unit, a cleaning circuit, and a first current limiting unit that are connected in series, wherein the overcurrent-automatic-disconnection unit is configured to be automatically disconnected when a current flowing through the overcurrent-automatic-disconnection unit exceeds a breaking current threshold, wherein the first current limiting unit is configured to limit a current on the first branch, wherein the cleaning circuit comprises a second current limiting unit and a second controllable switch unit that are connected in parallel, wherein the second controllable switch unit includes a control terminal connected to the controller, and is configured to be open or closed under control of the controller; a second branch, connected in parallel to the first branch and comprising a first controllable switch unit, wherein the first controllable switch unit includes a control terminal connected to the controller, and is configured to be open or closed under control of the controller; wherein the controller is connected to the control terminal of the first controllable switch unit, the control terminal of the second controllable switch unit, and a protected circuit, and is configured to: (1) when the protected circuit operates normally, close the first controllable switch unit and the second controllable switch unit, (2) when a fault occurs in the protected circuit, open the first controllable switch unit and close the second controllable switch unit, and (3) when a voltage value at two ends of the first branch is detected to meet a preset condition, alternately open and close the first controllable switch unit; and wherein the breaker apparatus is connected in series in the protected circuit, and is configured to disconnect an electrical connection when a fault occurs in the protected circuit. 7. The breaker apparatus according to claim 6 , wherein the controller is further configured to: when the first controllable switch unit needs to be cleaned, open the second controllable switch unit. 8. The breaker apparatus according to claim 7 , wherein a default state of the second controllable switch unit is a closed state. 9. The breaker apparatus according to claim 7 , wherein the first controllable switch unit is any one or any series or parallel combination of the following: a relay, a contactor, and a semiconductor switch; and wherein the second controllable switch unit is any one or any series or parallel combination of the following: a relay, a contactor, and a semiconductor switch. 10. The breaker apparatus according to claim 8 , wherein the first current limiting unit is any one or any series or parallel combination of the following: a resistor, a diode, a positive temperature coefficient PTC thermistor, and a negative temperature system NTC thermistor; and wherein the second current limiting unit is any one or any series or parallel combination of the following: a resistor, a diode, a PTC thermistor, and an NTC thermistor. 11. The breaker apparatus according to claim 6 , wherein the overcurrent-automatic-disconnection unit is any one or any series or parallel combination of the following: a circuit breaker and a fuse. 12. The breaker apparatus according to claim 6 , wherein the controller is connected to the first branch, and further configured to close the first controllable switch unit when the protected circuit is powered on and when a voltage value at two ends of the first branch is less than a preset voltage value. 13. An inverter system, comprising at least one direct current input terminal, a plurality of breaker apparatuses, a bus unit, and a DC/AC conversion unit, wherein at least one of the breaker apparatuses is connected in series between a negative electrode of the direct current input terminal and a negative electrode of the bus unit, and wherein the direct current input terminal includes a positive electrode that is connected to a positive electrode of the bus unit; or wherein at least one of the breaker apparatuses is connected in series between a positive electrode of the direct current input terminal and a positive electrode of the bus unit, and wherein the direct current input terminal includes a negative electrode that is connected to a negative electrode of the bus unit; or wherein at least one of the breaker apparatuses is connected in series between negative electrodes of some direct current input terminals and a negative electrode of the bus unit, and wherein the direct current input terminal includes a positive electrode that is connected to a positive electrode of the bus unit; or wherein at least one of the breaker apparatuses is connected in series between positive electrodes of some direct current input terminals and a positive electrode of the bus unit, and wherein the direct current input terminal includes a negative electrode that is connected to a negative electrode of the bus unit; or wherein one or more of the plurality of breaker apparatuses are connected in series between a negative electrode of the direct current input terminal and