Lighting device and luminaire

What is claimed is: 1. A lighting device, comprising: a constant-current circuit configured to supply a constant current to a plurality of solid-state light-emitting elements connected in series; a smoothing capacitor connected between output terminals of the constant-current circuit; a bypass circuit connected in parallel to one or more of the plurality of solid-state light-emitting elements, the bypass circuit configured to bypass the one or more solid-state light-emitting elements; a detection unit configured to detect whether the one or more solid-state light-emitting elements are open-circuited; and a bypass control unit configured to, when the detection unit detects that at least one of the one or more solid-state light-emitting elements is open-circuited, discharge the smoothing capacitor during a discharge period, and thereafter, bypass the one or more solid-state light-emitting elements through the bypass circuit. 2. The lighting device of claim 1 , wherein, during the discharge period, the smoothing capacitor is discharged until a voltage across the smoothing capacitor becomes smaller than a sum of forward voltages of the plurality of solid-state light-emitting elements. 3. The lighting device of claim 2 , wherein, during the discharge period, the smoothing capacitor is discharged until the voltage across the smoothing capacitor becomes smaller than a sum of forward voltages of other solid-state light-emitting elements than the one or more solid-state light-emitting elements among the plurality of solid-state light-emitting elements. 4. The lighting device of claim 1 , wherein, during the discharge period, the bypass control unit stops the constant-current circuit or reduces a value of the constant current supplied from the constant-current circuit. 5. The lighting device of claim 1 , further comprising: a discharge circuit connected in parallel to the smoothing capacitor, wherein, during the discharge period, the bypass control unit turns on the discharge circuit to discharge the smoothing capacitor. 6. The lighting device of claim 1 , wherein the bypass control unit includes a comparator to compare a voltage across the smoothing capacitor with a predetermined reference voltage, and wherein the bypass control unit terminates the discharge period when the voltage across the smoothing capacitor becomes lower than the reference voltage, and thereafter, bypasses the one or more solid-state light-emitting elements through the bypass circuit. 7. The lighting device of claim 1 , wherein, after the detection unit detects that said at least one of the one or more solid-state light-emitting elements is open-circuited, the bypass control unit terminates the discharge period after a predetermined time period has elapsed, and thereafter, bypasses the one or more solid-state light-emitting elements through the bypass circuit. 8. The lighting device of claim 7 , wherein the discharge period is longer than a time constant of a discharge path through which the smoothing capacitor is discharged. 9. The lighting device of claim 1 , wherein the constant-current circuit is a DC-to-DC converter that is supplied with a current from a DC power source, and wherein the constant-current circuit includes: a switching element; an inductor through which the current from the DC power source flows when the switching element is turned on; a diode through which a current discharged from the inductor is supplied to the plurality of solid-state light-emitting elements; and a control unit for controlling on and off of the switching element. 10. The lighting device of claim 1 , wherein, while the bypass control unit bypasses the one or more solid-state light-emitting elements through the bypass circuit, the constant-current circuit supplies a current to the remaining solid-state light-emitting elements other than the one or more solid-state light-emitting elements being bypassed. 11. A luminaire, comprising: a plurality of solid-state light-emitting elements; and a lighting device including: a constant-current circuit configured to supply a constant current to the plurality of solid-state light-emitting elements connected in series; a smoothing capacitor connected between output terminals of the constant-current circuit; a bypass circuit connected in parallel to one or more of the plurality of solid-state light-emitting elements, the bypass circuit configured to bypass the one or more solid-state light-emitting elements; a detection unit configured to detect whether the one or more solid-state light-emitting elements are open-circuited; and a bypass control unit configured to, when the detection unit detects that at least one of the one or more solid-state light-emitting elements is open-circuited, discharge the smoothing capacitor during a discharge period, and thereafter, bypass the one or more solid-state light-emitting elements through the bypass circuit. 12. A lighting device, comprising: a constant-current circuit configured to supply a constant current to a plurality of solid-state light-emitting elements connected in series; a capacitor circuit connected in parallel to one or more of the plurality of solid-state light-emitting elements, the capacitor circuit including a capacitor; a bypass switch circuit connected in parallel to the one or more solid-state light-emitting elements and to the capacitor circuit, the bypass switch circuit including a bypass switch; and a current detection unit configured to measure a current flowing through the capacitor, wherein the current detection unit turns on the bypass switch when the measured current exceeds a predetermined threshold. 13. The lighting device of claim 12 , wherein the capacitor circuit further includes a resistor connected in series to the capacitor, and wherein the current detection unit measures the current based on a voltage across the resistor. 14. The lighting device of claim 12 , wherein the current detection unit includes a resistor-capacitor filter to attenuate high-frequency components in the current. 15. The lighting device of claim 12 , wherein the bypass switch circuit further includes an impedance element connected in series to the bypass switch. 16. The lighting device of claim 12 , wherein the constant-current circuit is a DC-to-DC converter that is supplied with a current from a DC power source, and wherein the constant-current circuit includes: a switching element; a control circuit that outputs a signal to control on and off of the switching element; an inductive element through which the current from the DC power source flows when the switching element is turned on; and a diode through which a current discharged from the inductive element is supplied to the plurality of solid-state light-emitting elements. 17. The lighting device of claim 16 , wherein the current detection unit detects a DC component in the current flowing through the capacitor. 18. The lighting device of claim 16 , wherein the constant-current circuit is driven in a boundary current mode, and the predetermined threshold is larger than a value of the constant current supplied from the constant-current circuit and is equal to or less than two times the value. 19. A luminaire, comprising: a plurality of solid-state light-emitting elements; and a lighting device including: a constant-current circuit configured to supply a constant current to a plurality of solid-state light-emitting elements connected in series; a capacitor circuit connected in parallel to one or more of the